The studies of the college are mathematics, fortification, military drawing and surveying, military history and geography, and one modern language (either French or German), which are obligatory on all cadets, and, in the final examination 1,950 marks (out of 5,400 required), with a certificate of proficiency in military and athletic exercises, are required to qualify for a commission. To these studies are added chemistry or physics, geology, and a second modern language.
For educational purposes, the cadet corps is divided into three companies, designated A, B, C, each company pursuing the same subjects at the same time, with a classification of members into sections, according to the results of the minor and term examinations. The minor examinations take place every six weeks, and the term examinations every six months, and the final examination at the close of the course, which occupies three terms of six months each. The final examination is conducted by examiners attached to the Council of Military Education. The final result, as bearing on a commission, is reached by adding the marks as determined by the average of the minor and term examinations, and the answers of the final examination.
The instruction is given in halls of study, of which there are 18, large enough to accommodate, each, 18 cadets, but generally occupied by 15. The lecture hall will accommodate 100 without crowding.
1.Mathematics, elementary for all sections, including arithmetic, algebra up to simple equations, euclid, the use of logarithmic tables, elementary problems in heights and distances, and mensuration; and higher in the third section, including trigonometry and practical mechanics and hydrostatics, occupies 21 hours a week during the entire residence. To this branch is assigned a professor, one senior master, and three other masters. To the highest proficiency in mathematics is assigned a maximum of 1,200 marks, and a minimum of 300 is allowed to count.
2.Fortificationincludes field and the elements of permanent fortification, with a preparatory course of practical geometry. To this study, which occupies three hours every day, or 18 hours per week, are assigned six professors, and to the highestproficiency is awarded a maximum of 1,800 marks, with a minimum of 450. Field fortification is taught in the first two terms, plan drawing and practical work going on together. The cadets trace and execute portions of fieldworks, making and planting revetement, gabions, and fascines, and doing all but the heavy work, which is left to the sappers. They are also instructed in bridge making and in pontooning, and witness every species of work done in the hall, on the fortification ground.
3.Military Surveying and Drawingoccupy together 17 hours, under 12 professors. The cadets commence by drawing from copies, then from models, being in the meantime also taught the use of instruments; then in six weeks after joining the corps, they are taken out to triangulate with the prismatic compass and pacing, and traverse roads. The former practice with the theodilite and sextant has been abandoned, and the whole instruction has been concentrated on the art of field sketching as of more importance to an infantry officer. To the highest proficiency in this subject is given 1,800 marks, and a minimum of 450 is allowed to count in the final result. In the final examination the candidate for a commission must obtain at least 1,200 marks in the above subjects.
4.Military History and Geographyis under the charge of one professor and two instructors. The present course is to give instruction by lecture, in the organization and mode of action of the three arms, and explanation of the operation of the commissariat and transport department of an army, followed by a short and simple campaign. In the second half-year, two campaigns are selected, with a view to illustrate the generally received principles of tactics and strategy, and in the third half-year one campaign is thoroughly worked out in detail. The cadets take notes of the lecture, on which they are examined orally, and after the main propositions and facts are printed by the professor, a subsequent study and examination on the printed scheme is had. In this study the cadets draw plans of the theatre of war and of battles, showing the position of the opposing forces.
5.Languages, French and German,—the former with one professor and three masters, and the latter with one master. The usual course in either language is grammar, exercises, dictation, translation, and composition. To the highest proficiencyin either, 1,200 marks are assigned, and a minimum of 300 is allowed. One of these languages is obligatory in the final examination, but the candidate can be examined in both. The cadets can change from one language to the other at the beginning of the term.
6.Chemistry(including sound, heat, electricity, and magnetism) andGeology(including mineralogy and physical geography) occupy each a half hour four days in the week, and employ part of the time of two professors.
7.Freehand or Landscape Drawingreceives two lessons per week, first from copies and models, and in the third term one lesson per week from nature. To the highest proficiency is assigned 600 marks, and a minimum of 150 is allowed.
8.Military exercisesenter into the programme for the day, and consist of gymnastics for the first term, gun-drill and riding (one lesson per week) in the second term, and two lessons in the last exercises for the third term. Parade and infantry drill occupy, in addition, half an hour before breakfast, and 50 minutes between the first and second period of study in the morning (9.30 and 10.50).
For qualification a cadet must obtain an aggregate of 1,200 marks out of 5,400 on the three military subjects, and a total aggregate of 1,950 of these. Similar proportions of marks must be obtained each term that the cadet may return in the following term.
Out of 2,399 admission examinations in eleven years, from 1858 to 1868, 444 were unsuccessful; and in the final examinations, in the same period, out of 1,726, 25 failed. The results of the examinations show better preparation from year to year.
EXPENDITURES.
The expenditures of the government, on account of the Military College, were as follows: for 1858-9, £27,969; for 1863-4, £39,690; for 1866-7, £36,416, exclusive of payments made by the cadets or by the Indian government, which, in 1866-67 was £4,237.
TheMilitary Academy at Woolwich was instituted by George II. in 1741, to give instruction to officers who served in the Artillery and Engineers. It began in a small room in a building at Woolwich, where the Board of Ordnance used occasionally to assemble, under the instruction of two masters, who lectured by rotation during four consecutive hours in three days of every week. At first only the officers of the single battalion composing the Artillery, and of the corps of Engineers, were required to attend. In the second year non-commissioned officers, and privates too, were at liberty to attend, and upon its close cadets, to the number of five to each company of artillery, resorted to the hall. Being sons of officers of the corps, and not in uniform or under military control, the cadets became an element of disorder, which led to a more systematic organization. In 1744, the cadets were clothed in uniform, and collected into a distinct company, under two officers, with a drum-major. By 1782, the number of cadets had increased from twenty to sixty, and in 1798, to one hundred,—boarding with their families. In the last year arrangements were made to lodge and board the cadets by allowing 2s.a day per head, until by degrees, in 1857, an imposing pile of buildings had been erected, and the establishment for government and instruction consisted of 18 officers on the military staff, and some fifty professors and masters in the civil and educational corps.
Previously to the year 1855 admission to the Royal Military Academy could only be obtained by a nomination from the Master-General of the Ordnance. The limits of age for admission were at that time from 14 to 16, and the candidatesnominated were required to pass an entrance examination before the professors of the Academy, which varied somewhat according to the age of the individual. A certain number of the candidates previously passed though the preparatory school at Carshalton, admission to which was equally obtained by nomination from the Master-General of the Ordnance, and were transferred to the Academy on passing an examination similar to that required from those who entered the latter establishment direct. The term of residence at the Academy varied, according to the progress of a cadet, from two to four years.
The inability of the Academy to meet the demand for officers for the Artillery and Engineers created by the Crimean war, led to the introduction of a new system of obtaining commissions in the scientific corps. At first a limited number of nominations were placed in the hands of the head masters of the great public schools of the country, and the candidates nominated by them were appointed to provisional commissions on passing an examination at Woolwich; but after a short time the principle of open competition for admission to the Artillery and Engineers was adopted, in 1855, by Lord Panmure, when Secretary of State for War. Simultaneously with this change—the first recognition of the competitive principle in regard to military education in this country—a great alteration was made in the limits of age for admission to the scientific corps. Both direct appointments to commissions in the Artillery and Engineers, without any previous special instruction, and admissions to the senior or practical class at the Academy, without passing through the lower or theoretical classes at that institution, were thrown open to public competition among all natural-born subjects of Her Majesty. The limits of age for candidates for the direct appointments were from 19 to 21. Those who were successful were in the first instance to receive provisional commissions, and to be placed for instruction under the Director of Artillery Studies, at Woolwich, for a period of about six months, at the end of which they were to be permanently commissioned. Candidates for admission to the practical class at the Academy were required to be between the ages of 17 and 19; those admitted were to remain in the practical class for six or eight months, after which, on passing an examination, they were to receive commissionsin the Artillery or Engineers. The first competitive examination under this system (the regulations for which will be found below) was held in August, 1855, and was conducted by a body of examiners specially appointed for the purpose, under the direction of Canon Moseley. The examination for both classes of appointments thrown open to competition was the same, and was based on the general education of the country, the object being merely to compare the abilities and attainments of the candidates without reference to special professional knowledge. Two other similar examinations, both for provisional commissions and for admission to the practical class, were held in January and June, 1856, the only difference being that the limits of age of the candidates were somewhat extended, and that in these later examinations no commissions in theEngineerswere offered to competition.
On the conclusion of the Crimean war, however, the system of appointing officers directly from civil life to commissions in the scientific corps, as well as that of admitting candidates to the practical class at the Academy, which had been adopted to meet the pressure of the war, came to an end. No other examination after that in June, 1856, was held for a year; but in June, 1857, the first competitive examination for admission to the ordinary course of instruction at the Academy took place. The limits of age for admission were fixed at 17 to 20, and it was announced that the successful candidates would remain under instruction at the Academy “until sufficiently advanced in scientific knowledge to pass a satisfactory examination.”
Since this period open competitive examinations have been held regularly every six months for admission to the Academy; and though various modifications in their details have been made, their general character remains little altered. The limits of age for candidates, originally placed at 17 to 20, were, however, in 1862, reduced to 16 to 19, at which they are at present fixed.
The examinations for admission to the Academy, like those which had previously been held for provisional commissions and for appointments to the practical class, were at first conducted by Canon Moseley and a special Board of Examiners appointed by the Secretary of State for War, with whom the general management of the Academy, after the abolition ofthe office of Master-General of the Ordnance, remained. In 1858, however, the superintendence of the system of instruction at Woolwich was transferred to the Council of Military Education, who, since July, 1859, have conducted the examinations.
Although the principle of open competition for appointments in the scientific corps was first recognized in 1855, and in 1857 was extended generally to admission to the ordinary course of instruction at the Academy, yet the system of competitive examination did not become the sole and universal means of admission to Woolwich until the year 1861. Time was required to clear off the vested interests of candidates who had been placed on the old nomination list of the Master-General of the Ordnance; of youths who had been admitted to the preparatory school at Carshalton; of cadets who, at the time of the proposed amalgamation of Sandhurst and Woolwich, had obtained admission to the former institution on the understanding that they would have the opportunity of obtaining commissions in the Artillery and Engineers; and, lastly, of cadets at the Indian Military College at Addiscombe, who, on the abolition of the local Indian army, were transferred to Woolwich before receiving commissions in the Royal Artillery and Royal Engineers.
Out of 3,085 admission examinations in eleven years, from 1858 to 1868, more than one-half (2,136) failed. Of those who entered after this trial, in the same length of time, only three failed to pass the final examination.
STAFF OF GOVERNMENT AND INSTRUCTION.
President.—Duke of Cambridge, K.G.Governor.—Major General J. L. A. Simmons, K.C.B.Secretary and Treasurer.—Bt. Major E. J. Bruce, R.Art.Professor of Mathematics.—M. W. Crofton, B.A., and five masters.Professor of Fortification.—Lt. Col. J. J. Wilson.Instructors.—Major W. J. Stuart, and three others.Professor of Military History.—Capt. H. Brackenburg, R.Art.Professor of Military Drawing.—Lt. Col. A. W. Drayson.Landscape Drawing.—William Clifton.Professor of Artillery.—Lt. Col. C. H. Owen, and five masters.Professor of Practical Geometry.—T. Bradley, and two masters.Professor of German.—C. H. Schaible, and two masters.Professor of French.—Theodore Karcher, and two masters.Professor of Chemistry.—C. L. Bloxham.Chaplain and Classical Instructor.—Rev. W. F. Short.
President.—Duke of Cambridge, K.G.
Governor.—Major General J. L. A. Simmons, K.C.B.
Secretary and Treasurer.—Bt. Major E. J. Bruce, R.Art.
Professor of Mathematics.—M. W. Crofton, B.A., and five masters.
Professor of Fortification.—Lt. Col. J. J. Wilson.
Instructors.—Major W. J. Stuart, and three others.
Professor of Military History.—Capt. H. Brackenburg, R.Art.
Professor of Military Drawing.—Lt. Col. A. W. Drayson.
Landscape Drawing.—William Clifton.
Professor of Artillery.—Lt. Col. C. H. Owen, and five masters.
Professor of Practical Geometry.—T. Bradley, and two masters.
Professor of German.—C. H. Schaible, and two masters.
Professor of French.—Theodore Karcher, and two masters.
Professor of Chemistry.—C. L. Bloxham.
Chaplain and Classical Instructor.—Rev. W. F. Short.
EXPENDITURE FOR MILITARY ACADEMY AT WOOLWICH:In 1858, £27,969; in 1861-62, £25,188; in 1866-67, £36,416,—exclusive of payments made by the cadets.REGULATIONS FOR ADMISSION.N.B.—All candidates for commissions in the Royal Artillery and Royal Engineers are required to go through a course of instruction at the Royal Military Academy.I. Competitive examinations for admission are held in London twice a year, in January and July. They are conducted by examiners appointed for the purpose, in the presence and under the superintendence of the Council of Military Education.The candidates must be between 16 and 19 years of age.II. The admissions will be determined by the result of the examination, the subjects of which will be as follows, viz.:Marks.1. MathematicsPureSection I. Arithmetic, algebra, Euclid, plane trigonometry,2,0003,500Section II. Spherical trignometry, elements of co-ordinate geometry, and of the differential and integral calculus,500Mixed: Statics, dynamics, and hydrostatics,1,0002. English language and composition,1,0003. History of England, its dependencies and colonies,1,0004. Geography (modern),1,0005. ClassicsLatin language,1,500Greek do.,1,5006. French language,1,0007. German do.,1,0008. Hindustani do.,1,000The examination in French, German, and Hindustani, will include writing from dictation.9. Experimental sciences,i.e., chemistry, heat, electricity, magnetism,1,00010. Natural sciences,i.e., mineralogy and geology,1,00011. DrawingFree-hand drawing of machinery, architectural, topographical, landscape or figure subjects,1,000Every candidate must qualify in geometrical drawing;i.e., drawing in ink, with accuracy, neatness, and to scale, the several problems of Euclid. The standard of qualification in this subject is 100 marks, which must be gained, out of a maximum of 300 nominally assigned to it. But the marks so gained will not count toward the general aggregate.III. No candidate will be allowed to be examined in more than five subjects, of which one must be mathematics, and no one who does not obtain at least 700 marks in section I. of pure mathematics, will be eligible for an appointment.From the other subjects of examination, to which marks are assigned as above, each candidate may select any, not exceeding four in number, in which he desires to be examined. The rules for counting marks in such subjects are as follows:In all subjects carrying marks, except the 1st section of mathematics, in which 700 marks are required, one-sixth of the number allotted to each must be gained before they can be allowed to count.In classics, the subject is divided into two sections as above, either or both of which the candidate may take up as one subject; but he will not be allowed to count the marks gained in either section unless they amount to one-sixth of the number allotted to it.In eitherFrench,German, orHindustani, every candidate will be required to obtain for qualification one-sixth of the maximum of marks, whether he takes it up as a subject in which he desires to compete or not.It should be understood that, although only a small qualifying test has been imposed in respect to modern languages, a knowledge of them on admission will contribute greatly to a candidate’s future success at the Royal Military Academy.IV. The candidates are allowed to answer as many questions as the time allotted to the subject will permit.V. No candidate will be admitted unless he obtain an aggregate of at least 2,500 marks.VI. The successful candidates will remain under instruction for about two years and a half, or until they are sufficiently advanced in scientific knowledge to pass a satisfactory examination, and they will then be qualified to receive commissions in the Royal Artillery or Royal Engineers. If, however, they should be found unable to qualify themselves within three years in their professional studies, or to acquire a sufficient proficiency in military exercises, or if at any time, by failure at the half-yearly examinations, it should appearimprobable that they will ultimately succeed in qualifying for a commission, they will be removed. Further, every cadet will be liable to be removed temporarily or permanently on the commission of any of those offences to which such penalty is awarded by the regulations of the Royal Military Academy.VII. Each cadet on joining will be required to pay a sum of 25l.to cover the expense of uniform, books, etc., and to bring with him the articles of clothing of which he will receive notice, and which must afterward be kept up at his own expense. He will also be required to pay a contribution of 62l.10s., payable in advance, for each half year of the time during which he remains under instruction; and a deposit of 5l.into the hands of the paymaster on account, for contingent expenses, which latter sum he will be required to make up on returning to the Royal Military Academy after each vacation, to cover any unavoidable expense that may be incurred on his account during the ensuing half year.The annual contributions, however, for sons and orphans of naval and military officers will be regulated at thefollowingrates, as heretofore:For sons of admirals and of generals having regiments,£80For sons of generals without regiments,70For sons of captains and commanders of the navy, and of colonels and regimental field officers of the army,60For sons of all officers of the army and navy under the above ranks,40For sons of all officers of the army and navy who have died in the service, and whose families are proved to be left in pecuniary distress,20The sons of general officers who are paid only on their commissions as field officers will pay the same contributions as the sons of field officers.Officers who have sold their commissions are in this classification reckoned as private gentlemen.The cases of officers who have retired voluntarily upon half pay previous to having served 25 years on full pay will be specially considered.Officers who retire on half pay after 25 years’ service on full pay will be entitled to be classified for payment with the rank they last served in.The sons of officers of the civil departments of the army and navy, of officers of the permanent Militia Staff, and of adjutants of the Volunteer Force, are admissible to the Academy upon the same terms as those prescribed for naval and military officers.The sons of Indian naval and military officers will be admitted on the same terms as the sons of officers of the Queen’s service.The sons of professors at the Staff and Royal Military Colleges, at the Royal Military Academy, and at the Royal Military College, Addiscombe,£60The sons of masters at the above institutions,40If a cadet be absent a whole term in consequence of sickness or rustication, a payment of 10l.will be required for the privilege of his name being kept on the rolls of the establishment, and for a vacancy being guaranteed at the commencement of the next term.If a cadet be absent from sickness during a portion of the term, his pay will continue to be issued and credited to his account; but no refund of the contribution will be permitted.If rusticated during a term, the daily pay will cease from the date on which the cadet is sent away, and the contribution made for the half year will be forfeited.In the case of a cadet of the orphan class, whose annual contribution is only 20l., the amount to be paid when absence extends over a whole term is to be determined by the Secretary of State.VIII. Any gentleman who wishes to present himself at one of the half-yearly examinations must send in his name to the military secretary at the Horse Guards one month before the time of examination, forwarding with his application to be noted the following papers:1st. An extract from the register of his baptism, or, in default of that, a declaration before a magistrate, made by one of his parents, giving his exact age.2d. A certificate of good moral character, signed by a clergyman of the parish to which he belongs, and by the tutor or head of the school or college at which he has received his education for at least the two preceding years, or such other proof of good moral character as will be satisfactory to the Commander-in-Chief.3d. A statement of the subjects of examination in which (in addition to mathematics) he may desire to be examined.A candidate who has been examined before, when he applies for leave to present himself again, will only be required to forward the list of subjects he selects, and a certificate from his tutor or the head of his school, etc., for the interval between the two examinations.IX. The candidates will be inspected by military surgeons on the first day of the examination, in order that it may be ascertained that they are free from any bodily defects or ailments calculated to interfere with the performance of military duties.Extreme short-sight, or any serious defect of vision, is regarded as a disqualification.The responsible parent or guardian of every successful candidate, and the candidate himself, before he can be admitted as a cadet, are required to sign, respectively, obligations to conform to the regulations.
EXPENDITURE FOR MILITARY ACADEMY AT WOOLWICH:
In 1858, £27,969; in 1861-62, £25,188; in 1866-67, £36,416,—exclusive of payments made by the cadets.
REGULATIONS FOR ADMISSION.
N.B.—All candidates for commissions in the Royal Artillery and Royal Engineers are required to go through a course of instruction at the Royal Military Academy.
I. Competitive examinations for admission are held in London twice a year, in January and July. They are conducted by examiners appointed for the purpose, in the presence and under the superintendence of the Council of Military Education.
The candidates must be between 16 and 19 years of age.
II. The admissions will be determined by the result of the examination, the subjects of which will be as follows, viz.:
Section I. Arithmetic, algebra, Euclid, plane trigonometry,
Section II. Spherical trignometry, elements of co-ordinate geometry, and of the differential and integral calculus,
The examination in French, German, and Hindustani, will include writing from dictation.
Free-hand drawing of machinery, architectural, topographical, landscape or figure subjects,
Every candidate must qualify in geometrical drawing;i.e., drawing in ink, with accuracy, neatness, and to scale, the several problems of Euclid. The standard of qualification in this subject is 100 marks, which must be gained, out of a maximum of 300 nominally assigned to it. But the marks so gained will not count toward the general aggregate.
III. No candidate will be allowed to be examined in more than five subjects, of which one must be mathematics, and no one who does not obtain at least 700 marks in section I. of pure mathematics, will be eligible for an appointment.
From the other subjects of examination, to which marks are assigned as above, each candidate may select any, not exceeding four in number, in which he desires to be examined. The rules for counting marks in such subjects are as follows:
In all subjects carrying marks, except the 1st section of mathematics, in which 700 marks are required, one-sixth of the number allotted to each must be gained before they can be allowed to count.
In classics, the subject is divided into two sections as above, either or both of which the candidate may take up as one subject; but he will not be allowed to count the marks gained in either section unless they amount to one-sixth of the number allotted to it.
In eitherFrench,German, orHindustani, every candidate will be required to obtain for qualification one-sixth of the maximum of marks, whether he takes it up as a subject in which he desires to compete or not.
It should be understood that, although only a small qualifying test has been imposed in respect to modern languages, a knowledge of them on admission will contribute greatly to a candidate’s future success at the Royal Military Academy.
IV. The candidates are allowed to answer as many questions as the time allotted to the subject will permit.
V. No candidate will be admitted unless he obtain an aggregate of at least 2,500 marks.
VI. The successful candidates will remain under instruction for about two years and a half, or until they are sufficiently advanced in scientific knowledge to pass a satisfactory examination, and they will then be qualified to receive commissions in the Royal Artillery or Royal Engineers. If, however, they should be found unable to qualify themselves within three years in their professional studies, or to acquire a sufficient proficiency in military exercises, or if at any time, by failure at the half-yearly examinations, it should appearimprobable that they will ultimately succeed in qualifying for a commission, they will be removed. Further, every cadet will be liable to be removed temporarily or permanently on the commission of any of those offences to which such penalty is awarded by the regulations of the Royal Military Academy.
VII. Each cadet on joining will be required to pay a sum of 25l.to cover the expense of uniform, books, etc., and to bring with him the articles of clothing of which he will receive notice, and which must afterward be kept up at his own expense. He will also be required to pay a contribution of 62l.10s., payable in advance, for each half year of the time during which he remains under instruction; and a deposit of 5l.into the hands of the paymaster on account, for contingent expenses, which latter sum he will be required to make up on returning to the Royal Military Academy after each vacation, to cover any unavoidable expense that may be incurred on his account during the ensuing half year.
The annual contributions, however, for sons and orphans of naval and military officers will be regulated at thefollowingrates, as heretofore:
The sons of general officers who are paid only on their commissions as field officers will pay the same contributions as the sons of field officers.
Officers who have sold their commissions are in this classification reckoned as private gentlemen.
The cases of officers who have retired voluntarily upon half pay previous to having served 25 years on full pay will be specially considered.
Officers who retire on half pay after 25 years’ service on full pay will be entitled to be classified for payment with the rank they last served in.
The sons of officers of the civil departments of the army and navy, of officers of the permanent Militia Staff, and of adjutants of the Volunteer Force, are admissible to the Academy upon the same terms as those prescribed for naval and military officers.
The sons of Indian naval and military officers will be admitted on the same terms as the sons of officers of the Queen’s service.
If a cadet be absent a whole term in consequence of sickness or rustication, a payment of 10l.will be required for the privilege of his name being kept on the rolls of the establishment, and for a vacancy being guaranteed at the commencement of the next term.
If a cadet be absent from sickness during a portion of the term, his pay will continue to be issued and credited to his account; but no refund of the contribution will be permitted.
If rusticated during a term, the daily pay will cease from the date on which the cadet is sent away, and the contribution made for the half year will be forfeited.
In the case of a cadet of the orphan class, whose annual contribution is only 20l., the amount to be paid when absence extends over a whole term is to be determined by the Secretary of State.
VIII. Any gentleman who wishes to present himself at one of the half-yearly examinations must send in his name to the military secretary at the Horse Guards one month before the time of examination, forwarding with his application to be noted the following papers:
1st. An extract from the register of his baptism, or, in default of that, a declaration before a magistrate, made by one of his parents, giving his exact age.2d. A certificate of good moral character, signed by a clergyman of the parish to which he belongs, and by the tutor or head of the school or college at which he has received his education for at least the two preceding years, or such other proof of good moral character as will be satisfactory to the Commander-in-Chief.3d. A statement of the subjects of examination in which (in addition to mathematics) he may desire to be examined.
1st. An extract from the register of his baptism, or, in default of that, a declaration before a magistrate, made by one of his parents, giving his exact age.
2d. A certificate of good moral character, signed by a clergyman of the parish to which he belongs, and by the tutor or head of the school or college at which he has received his education for at least the two preceding years, or such other proof of good moral character as will be satisfactory to the Commander-in-Chief.
3d. A statement of the subjects of examination in which (in addition to mathematics) he may desire to be examined.
A candidate who has been examined before, when he applies for leave to present himself again, will only be required to forward the list of subjects he selects, and a certificate from his tutor or the head of his school, etc., for the interval between the two examinations.
IX. The candidates will be inspected by military surgeons on the first day of the examination, in order that it may be ascertained that they are free from any bodily defects or ailments calculated to interfere with the performance of military duties.
Extreme short-sight, or any serious defect of vision, is regarded as a disqualification.
The responsible parent or guardian of every successful candidate, and the candidate himself, before he can be admitted as a cadet, are required to sign, respectively, obligations to conform to the regulations.
For instruction the Cadets are divided into five classes of equal strength, according to length of residence; forty-four in the first four classes, and forty-six in the junior. The subjects are:
1. Mathematics, under a professor and four instructors, is studied in three classes, and the final examination is held after a residence of a year and a half, with a maximum of 6,800 marks in all.
2. Fortification, under a professor and four instructors, is studied in four classes. The final examination is in the last class, and the maximum of marks attainable in all is 6,300.
3. Artillery, under a professor and three instructors, is studied in two classes; the second and first, and the final examination, is in the first, with a maximum of 6,200 marks.
4. Surveying and topographical drawing, under a professor and four instructors, is studied in all the classes, and the final examination is at the completion of the course, with a total of 4,200 marks.
5. Practical Geometry, under a professor and two instructors, is studied in two classes, and the final examination is at the close of the first year, with an aggregate of 2,100 marks.
6. Mechanics and Natural Philosophy, under one professor, are studied in the last two terms, and the final examination is in the last, with a maximum of 1,600 marks in the former, and 900 in the latter.
7. French and German are studied, each under a professor and two instructors, for four terms, and after the final examination in the second class. The total marks in each is 1,500. Hindustani can be substituted for German.
8. Landscape Drawing, under two instructors, is studied in three classes, and the final examination is in the third class, with a maximum of 1,500 marks.
9. Military History is taught by one professor in the last two terms, and has a maximum of 2,000 marks.
10. Chemistry, under one lecturer, is taught in the last term, and receives a total of 1,200 marks.
11. Gymnastics, drill, and riding are taught as follows: Regular gymnastic instruction is conducted by a superintendent and three sergeants, for at least six months, and practised through all the terms. Artillery drill, with gun, sword, and other military drill and tactics, are conducted partly by military officers and partly by the professors and instructors of artillery. Riding drill is conducted under the officers of the Royal Artillery, in the last two terms, and is practised four or five hours a week. Swimming is taught optionally.
12. Recreations and amusements are optional and at the expense of the Cadets. Workshops are maintained by the government, but tools and materials are furnished at the expense of the Cadets. There are two reading rooms.
From the returns and evidence furnished, it is an extremely rare occurrence for a candidate to go up direct from a public school which does not possess a Modern Department to the examination for admission to Woolwich. Out of 855 candidates admitted to Woolwich in 10 years—from 1858 to 1867—the six public schools of Eton, Harrow, Rugby, Winchester, Westminster, and Shrewsbury, only sent up five direct. Colonel Addison states that at Sandhurst, out of 320 admissions during the last two years, there have been only 16 from the nine schools mentioned in the Report of the Royal Commission on Public Schools; but from Cheltenham and Wellington College the admissions have been more numerous. Even for the direct commission examination, those who present themselves from public schools (including Cheltenham and Marlborough, where Modern Departments exist), without seeking the assistance of a private tutor, scarcely amount to five per cent. of the whole number of candidates. At the same time, it may be observed that the proportion of failures among such candidates in the latter examination is comparatively slight, not amounting to more than 8 per cent., while the average number of failures among the candidates generally during the last four years has been very nearly 25 per cent. In fact, the general tenor of the evidence goes to show that, in the case of the examinations both for direct commissions and for admission to Sandhurst, there is, or at least should be, no necessity for candidates who have had the ordinary education of a classical public school to have recourse to private tuition. The Woolwich examination appears generally to be regarded in a different light. Its higher and more special character, and the great importance attached to mathematics, coupled with the competition which exists for it, render it apparently doubtful whether success would generally be obtained by candidates from public schools—other than those where, like Cheltenham, instruction is given with a particular view to this examination—without a special preparatory tuition.
The general character of the “Modern Side” at Harrow, which was established in September of 1869, “for the benefit of boys for whom, from various causes, an advanced classical training seems undesirable,” is explained as follows in a circular issued by the Head-Master when announcing the intention of adopting the institution:
The principal subjects of instruction on the “Modern Side” will be mathematics, French, German, Latin, history, English literature, and physical science.The requirements of boys not intended for the Universities will be specially kept in view, including the case of those who are candidates for Woolwich or the Indian Civil Service. It is hoped that this provision may obviate the supposed necessity for removing boys to a private tutor’s precisely at an age when the influences of public school life are most powerful and most salutary.Except for purposes of instruction there will be no distinction whatever between boys on the Modern Side and boys on the Classical Side.No boy will, for the present, be admitted to the Modern Side unless he has been in the school for at least a year, and has hitherto shown diligence and made fair progress.
The principal subjects of instruction on the “Modern Side” will be mathematics, French, German, Latin, history, English literature, and physical science.
The requirements of boys not intended for the Universities will be specially kept in view, including the case of those who are candidates for Woolwich or the Indian Civil Service. It is hoped that this provision may obviate the supposed necessity for removing boys to a private tutor’s precisely at an age when the influences of public school life are most powerful and most salutary.
Except for purposes of instruction there will be no distinction whatever between boys on the Modern Side and boys on the Classical Side.
No boy will, for the present, be admitted to the Modern Side unless he has been in the school for at least a year, and has hitherto shown diligence and made fair progress.
The nature of the instruction in the “Army Class” at Eton is described by the Head-Master (Rev. Dr. Hornly) as follows:
The Army Class was established by Dr. Goodrich in the year 1858. It was established in order to give Eton boys greater facilities for preparing certain subjects which were required in the army examinations, and to obviate the supposed necessity of giving Eton boys a special preparation, elsewhere than atEton, in order to fit them for the army examinations.At first fortification and military drawing were included in the course, and a considerable proportion of the ordinary school work (e.g., Latin verse writing) was remitted.This was not found to answer. The course included more than was necessary for the ordinary army examination, and not enough for the higher examinations at Woolwich. There seemed to be a danger of the class becoming a sort of refuge for the idlest boys in the school.Dr. Goodford subsequently altered all this, and placed the class upon its present footing, which is as follows:Two lessons a week (repetition lessons) are remitted to make time for lessons in modern history. English essays, or abstracts of what has been taught in school, are written by the boys out of school (one exercise a week), and carefully looked over. No other part of the ordinary school work (except the two repetition lessons) is given up. Boys cannot join the class till they are 16 years of age. They are expected to stay at Eton till the time comes for their examination. The class consists at present of 28 boys, with an average of 25.The class has certainly been successful. No boy going up from Eton has failed yet in the army examination since the reconstitution of the class of which I have spoken. I think the class has done good in the school.It will be seen that nothing more has been seriously attempted as yet than to secure boys from failure in the ordinary examinations. If boys are to be prepared at Eton for any higher competition, such as that at Woolwich, a very different course will obviously be necessary, and probably a system of “bifurcation” will be found indispensable.I am not prepared to say that this may not be introduced with advantage at Eton; but the impending changes in the governing body at Eton, and the anticipated changes with regard to army examinations, make it difficult to commence any work of reconstruction at the present moment.
The Army Class was established by Dr. Goodrich in the year 1858. It was established in order to give Eton boys greater facilities for preparing certain subjects which were required in the army examinations, and to obviate the supposed necessity of giving Eton boys a special preparation, elsewhere than atEton, in order to fit them for the army examinations.
At first fortification and military drawing were included in the course, and a considerable proportion of the ordinary school work (e.g., Latin verse writing) was remitted.
This was not found to answer. The course included more than was necessary for the ordinary army examination, and not enough for the higher examinations at Woolwich. There seemed to be a danger of the class becoming a sort of refuge for the idlest boys in the school.
Dr. Goodford subsequently altered all this, and placed the class upon its present footing, which is as follows:
Two lessons a week (repetition lessons) are remitted to make time for lessons in modern history. English essays, or abstracts of what has been taught in school, are written by the boys out of school (one exercise a week), and carefully looked over. No other part of the ordinary school work (except the two repetition lessons) is given up. Boys cannot join the class till they are 16 years of age. They are expected to stay at Eton till the time comes for their examination. The class consists at present of 28 boys, with an average of 25.
The class has certainly been successful. No boy going up from Eton has failed yet in the army examination since the reconstitution of the class of which I have spoken. I think the class has done good in the school.
It will be seen that nothing more has been seriously attempted as yet than to secure boys from failure in the ordinary examinations. If boys are to be prepared at Eton for any higher competition, such as that at Woolwich, a very different course will obviously be necessary, and probably a system of “bifurcation” will be found indispensable.
I am not prepared to say that this may not be introduced with advantage at Eton; but the impending changes in the governing body at Eton, and the anticipated changes with regard to army examinations, make it difficult to commence any work of reconstruction at the present moment.
The most successful institutions in preparing candidates either for Sandhurst or Woolwich are the Cheltenham and Wellington Colleges—each having a Modern Department, in which Latin and Greek yield their supremacy to modern science and living languages.
The Modern Department in Cheltenham College was established in 1843 as a Military School, and is claimed to be such at this time. The studies of subjects consist of mathematics, drawing of all kinds, physical science, two modern languages (French and German), English, surveying, and fortification, both field and permanent. The principal (Rev. T. A. Southend), in his evidence before the Military Education Commission in 1869, states that his pupils, atthe age of eighteen, went through the whole Addiscombe course, and all that was done at Woolwich, and a good deal of what was done at Chatham. The whole of his class, in 1868, went up for the entrance examination at Sandhurst, and passed. From twelve to fifteen go to Woolwich every year, and in 1869, forty out of one hundred and twenty in the Academy were prepared at Cheltenham. The special military instruction is based on a course of Latin and Greek.Out of three hundred and twelve students in Wellington College, ninety-six boys are in the Modern Side, entering at the age of twelve and thirteen, and remaining till seventeen or eighteen. But of the ninety-six, forty are preparing for the Engineers or Artillery, and twenty for the Line. The subjects taught in the military division are the same as at Cheltenham, except fortification; and the head-master (Rev. Dr. Benson) claims, in his evidence before the Commission, that his graduates are as well trained in the same subject as the pupils of Sandhurst or Woolwich. He advises the establishment of exhibitions in the Military School, open to competition to the pupils of all the public schools, and regards the modern side as an essential feature in all public schools.
The Modern Department in Cheltenham College was established in 1843 as a Military School, and is claimed to be such at this time. The studies of subjects consist of mathematics, drawing of all kinds, physical science, two modern languages (French and German), English, surveying, and fortification, both field and permanent. The principal (Rev. T. A. Southend), in his evidence before the Military Education Commission in 1869, states that his pupils, atthe age of eighteen, went through the whole Addiscombe course, and all that was done at Woolwich, and a good deal of what was done at Chatham. The whole of his class, in 1868, went up for the entrance examination at Sandhurst, and passed. From twelve to fifteen go to Woolwich every year, and in 1869, forty out of one hundred and twenty in the Academy were prepared at Cheltenham. The special military instruction is based on a course of Latin and Greek.
Out of three hundred and twelve students in Wellington College, ninety-six boys are in the Modern Side, entering at the age of twelve and thirteen, and remaining till seventeen or eighteen. But of the ninety-six, forty are preparing for the Engineers or Artillery, and twenty for the Line. The subjects taught in the military division are the same as at Cheltenham, except fortification; and the head-master (Rev. Dr. Benson) claims, in his evidence before the Commission, that his graduates are as well trained in the same subject as the pupils of Sandhurst or Woolwich. He advises the establishment of exhibitions in the Military School, open to competition to the pupils of all the public schools, and regards the modern side as an essential feature in all public schools.
Rugby School was the earliest of the great Public Schools of England to make Physical Science a regular part of its curriculum, and to give any considerable prominence to modern languages and history; but its governing authorities have resisted all efforts to establish a distinct Modern Side.
The Rev. Dr. Temple, head-master of Rugby School (now Bishop of Exeter), in his evidence before the Commission, remarked that the general education of boys entering Sandhurst should be the same as that given to other boys of the same age, destined for any other profession than that of arms. His opinion was adverse to having a modern department, in which the ancient classics held a subordinate place, in a school in which the classics held the first, and over which the head-master presided. The modern studies should have an independent scope, and their own master, who will by his character and personal attention fix the standard of attainment. The great public schools should hold on to their present aim and methods, introducing other studies to perfect their mental discipline and results. No side sections or departments in any existing school can do the work of scientific school culture so thoroughly as an independent school, in which the natural sciences and modern languages are taught by the main staff of professors. All teachers, in any school, civil or military, should be specially appointed for their educational qualities.
The Rev. Dr. Temple, head-master of Rugby School (now Bishop of Exeter), in his evidence before the Commission, remarked that the general education of boys entering Sandhurst should be the same as that given to other boys of the same age, destined for any other profession than that of arms. His opinion was adverse to having a modern department, in which the ancient classics held a subordinate place, in a school in which the classics held the first, and over which the head-master presided. The modern studies should have an independent scope, and their own master, who will by his character and personal attention fix the standard of attainment. The great public schools should hold on to their present aim and methods, introducing other studies to perfect their mental discipline and results. No side sections or departments in any existing school can do the work of scientific school culture so thoroughly as an independent school, in which the natural sciences and modern languages are taught by the main staff of professors. All teachers, in any school, civil or military, should be specially appointed for their educational qualities.
In Marlborough College, a modern department exists, which was established to prepare boys for definite examinations in which they would not succeed if they competed direct from the classical side of the College, and at the same time to solve the problem of giving a good school education on a basis of instruction in which the dead languages hold a subordinate place. Boys enter the Modern School after they have reached the fourth form in the classical department, so that Latin and Greek constitute a substantial part of their attainments and discipline. The success of the graduates of this institution in competing for admission into the military or civil service of the government, or in any of the walks of active or professional life, shows conclusively that the modern curriculum with its studies properly adjusted, and a well trained staff, under an able head-master, is quite equal to the classical, not only in practical utility, but in comprehensive and liberal discipline.
TheRoyal Engineering Establishment at Chatham was instituted in 1854, to furnish a sound course of practical instruction in Military and Civil Engineering to the officers, non-commissioned officers, and sappers of the corps of Royal Engineers, in addition and prior to which both officers and men pass through the ordinary drill and military duties common to the army generally.
The present organization and staff are composed of a director; an instructor and assistant in construction and estimating; an instructor and assistant in field works; an instructor and assistant in surveying; an instructor and assistant in telegraphy, photography, and an assistant in signalling; a brigade major; quartermaster in charge of stores, and field officer for military discipline.
There are six distinct courses:
1. Drill and military duties, which occupy 107 days. This includes, besides the interior economy of a company, proceedings of courts-martial, boards of survey, courts of inquiry.
2. Telegraphy, signalling, submarine mines, etc., which occupy thirty-five days. This includes the construction and maintenance of lines, a knowledge of instruments and batteries, application of electricity to explosions, management of torpedoes, etc.
3. Chemistry, which occupies fifteen days. This course comprises the analysis of limes, cements, and other building materials.
4. Field works, military bridging, etc, which occupies 122 days. This comprises instruction in earthworks, pontooning, rafts, spar, and other temporary bridges, reports on existing fortresses, construction of railways, escalading, diving, etc.
5. Architectural course, which occupies 183 days. This course includes building material, design, estimate, and specification for a building, instruction and report, with hand sketches of various works in execution, lime and cement works, quarrying, brickmaking, etc.
6. Surveying and Astronomy, which occupy 183 days. This course includes trigonometrical survey, military reconnoissance, special survey, road reconnoissance, astronomical memoranda and calculations, adaptation of works of defence to a contoured site, inspection tours of works of defence in England, and report on same, isolated lectures on geology, electricity, machinery, etc., by selected professors.
The first allowance toward expenses of junior officers of the Royal Engineers, in visiting engineering works, at home and abroad, was made in 1854, and is now 500l.per annum.
All recruits for this corps join at Chatham, and for about sixteen months are subject to daily drill and military duties in field work and all branches of the engineer service, and are drafted off, from time to time, into the special classes in construction, photography, telegraphy, lithography, printing.
Synopsis of the Course.
The following synopsis of the instruction given at the Royal School of Military Engineering at Chatham, was drawn up by Major General J. L. Simmons, the Director of the establishment.
I.—THE SURVEY COURSE.The course of surveying for the officers of the Royal Engineers is intended to qualify them for carrying on survey operations of every description, and for designing and laying out engineering works, so far as these are influenced by the features of the ground on which they are placed, or over which they are carried.The course consists of two parts,—the one relating to surveying processes exclusively, the other to the uses made of the plans and maps prepared by such processes, for engineering purposes.Under the first of these divisions the officers are practically instructed in astronomical, general, special, and reconnoitring surveying, including the accurate delineation of the inequalities of ground by levelling and by contours traced instrumentally, and also the giving reliefs to hill forms by sketching with the pen and drawing with the brush.Under the second division they are exercised in the adaptation of works of fortification to contoured sites, and in the selection and survey of lines of communication by roads, railways, and canals, and in drawing up projects for their execution.Astronomical Surveying.The officers are taught the construction and use of astronomical instruments, and are practised in making observations with them. They study from published works and memoranda printed at the establishment, the most useful problems for finding the time, the latitude and longitude, the direction of the meridian, and the variation of the compass.Examples of each problem are worked out by them from their own observations or from observations made in their presence.The use of meteorologicalinstrumentsand the reductions of the observations made with them are also practised.General Survey.As a preliminary exercise in drawing each officer constructs a plate of scales from data supplied to him. For particular information on the delicate and powerful instruments and apparatus which have been used in great national surveys, and which cannot be studied in the establishment observatory, the officers are referred to published works; and they are instructed in the adjustments, the unavoidable errors of construction, and the powers of the instruments put into their hands for the execution of their survey course.The general survey comprises:1st.The selection and measurement of a base.—The base is measured with an ordinary chain and a five-inch theodolite, and this measurement having been reduced to its horizontal value at the level of the sea, the section of the base is laid down on paper.2d.Triangulation.—The measured base is extended by a triangulation over 10 or 16 square miles of country, and the relative altitudes of, and the distances between, the stations selected are determined from observations. The computed horizontal distances are laid down, and the azimuth of one of them is determined.3d.Traversing.—The positions of the roads, streams, boundaries of woods, and other marked features, surrounding and intersecting an area of six or eight square miles of the country triangulated, are then determined by running traverses with a theodolite from one station to another, so as to cut up this area into spaces which will admit of being filled in by a less accurate method, without introducing an error in the plan.4th.Plotting of detail and completion of the work.—The protracted lines are now transferred to another sheet of paper, and the detail, obtained as the traverses proceed, is plotted from the field-book. From this plot sketch sheets are prepared, and the remainder of the work is sketched in with the aid of a prismatic compass, the form of the ground being represented by pencil strokes, assisted by contours put in with the aid of a portable level.The sketch sheets are etched in with a pen, and a finished brush-work plan of the complete survey, embracing all the information collected, is prepared from them, with the original plotted detail, as a basis.Special Survey.A piece of ground, about half a mile in area, is surveyed with minute accuracy as for some special purpose, and is laid down on a scale sufficiently large to admit of the calculation of the areas of the enclosures from the paper. The method followed is the same as that pursued on the Ordnance Survey, and with the Tithe Commutation Surveys, etc.Contouring.—On the ground thus specially surveyed contours are traced instrumentally at given vertical distances apart and are plotted on the plan.Military Reconnaissance.This is conducted on principles similar to those which govern the operations of the general survey; the instruments employed, however, are all portable. The measurement of a base is made by such means as readily offer themselves (generally by pacing), and the trigonometrical points are fixed simply by protracting angles observed with a box sextant or compass. The whole of the remaining features and details considered necessary in a military point of view are sketched in with the aid of bearings and pacing. The reconnaissance embraces about six square miles.In addition to the topographical sketch of the ground, each officer sends in a detailed report of its general character, its resources, and military capabilities. Each officer also makes a hasty reconnaissance of a road with a view toits employment as a military communication. All the information which can be obtained as to the character of the country through which it passes, and towns and villages near it, together with the construction, gradients, etc., of the road, are noted on the face of the sketch.Fortification Branch.Every officer is required, in this branch of the survey course, to design one or more works of defence for the occupation of a site, of which a contoured plan is furnished to him.In performing this exercise the officer becomes, expert in reading the various forms and slopes of ground, as expressed by contours; he meets with and learns to provide for some of the many modifications of the conditions of defence which the occupation of irreglar sites necessitates, and he acquires facility in the application of descriptive geometry to the determination of the planes of defilade and the several planes of a work.The data upon, which, the design, is framed consist of a plan of ground shown by contours and of some of the conditions to be filled by the proposed fortification, such as the objects for which; the site is occupied, the strength of the garrison, the extent, of the works, the nature of the defence of the ditches, the trace, or the, profile to be adopted, etc.On the completion of his design the officer writes a report explanatory of the character of the works, he has adopted, and describing his arrangements both for the distant and near defence, with any improvements which have suggested themselves in working it out; and since the scale of the design, admits of considerable accuracy in its preparation, he is required to enter very fully into the detail of the arrangement he proposes.The report is accompanied by tables showing how the remblai and deblai are equalized, and that the distribution of the latter is, economical.Civil Applications.Projects for a line of communication, general plan, and trial sections.—The officers are instructed in the general principles which should guide them in laying out lines of communication, whether by road, railway, or canal, and are then sent out to examine the country between two points five or six miles apart, and are required to decide on two or more routes which apparently offer the greatest facilities in point of gradients, soil, and the materials of construction. Availing themselves of the best map or plan they can obtain, they draw a plan showing approximately the divisions of the properties through which the trial lines are run; they then make trial sections; and from these sections and their previous examination of the ground, they determine on the line, to be adopted, embodying in a report a general description of the country, the obstacles encountered on each route, the gradients, curves, etc., and also the calculations which led to their decision. In their calculations they estimate the cost of the necessary constructions on each of the trial lines, the cost of conveyance for heavy goods on an assumed basis of daily traffic, and the time occupied in each case for quick transit.Working plan and section.—A length of one mile of the route determined on as the best is selected, and for this a special survey is made, which is laid down as a working plan, the line being picketed out when no objection is made by the owners of the property through which it passes. A working section of the line is also prepared from accurate levels.Plan of details, etc.—For the works proposed on that portion of the line Which is, included within the limits of the working section, a plan of details Is prepared, as well as a specification for the works and an estimate of their probable cost.II. THE COURSE OF CONSTRUCTION AND ESTIMATING.For this course 142 days, including Sundays, are allowed. The course is divided into four parts.Part I—Theory of Construction.This part consists of a series of examples in construction, about 50 in number, which will be varied from time to time.They are drawn up with a special view to the application of the mathematical knowledge already possessed by the officers to some of the cases, which they are likely to have to deal with in practice.References are given in the margin of the printed paper of examples tosome of the many books in which the information, necessary for their solution can he found.The instructing officer will explain every morning, except Saturday, as many of the examples as he considers the officers can work during the remainder of the day, and the officers are expected to study these subjects from some one of the books referred to.The object of these short explanations is twofold: 1st, to explain the principles on which the particular cases or similar cases are to be dealt with; 2d, to impart in a condensed form some of the varied information which is familiar to all engineers of experience, but which an engineer at the commencement of his career often has a difficulty in finding.The officers will take notes of these explanations, and write each morning notes at the head of the fair copy of the examples, to which they refer. The examples explained on each day are to be worked out on that day in the fullest manner; the reasoning of each step is to be stated, and all rough calculations are to be left on the paper, so as to lessen as much as possible the labor of examination. They are to be brought to the instructing officer the following morning, and after examination are to be written out fair on ruled foolscap, quarter-margin, on the right-hand sheet, with explanatory diagrams to a large scale, where necessary, on the left-hand sheet.The fair notes of each week’s work must be sent in before the end of the following week.The weights, strength of materials, and other information, will be found in the printed tables.This part of the course occupies about 40 days, and while it continues leave will be granted on Saturdays and Sundays only.Part II.—Materials.The object of this part of the course is to give the officers some sort of guide in judging of the quality of the principal materials which they will have to use, as well as to afford them information as to the particular material most suitable for a building or engineering work.It may be subdivided into three parts, viz., lectures given by professors in the lecture theatre; lectures given by the instructing officer; and visits made by the officers to lime works, cement works, brickfields, etc.The lectures in the lecture theatre are delivered at the periods most convenient to the lecturer, but the notes taken by the officers form part of this course, and will be bound up with the rest of the papers.The notes of the lectures delivered by the instructing officer are to be written out fair immediately after the lecture, in accordance with the instructions given, and brought to, the instructing officer on the following morning.A printed paper detailing the particular points to which officers visiting manufacturing works are to direct their attention will be given to each officer, and a report is to be sent in as soon as possible after each visit to the instructing officer.Sketches to illustrate the lectures and visits are to be as numerous and complete as possible.The value of these sketches for future reference, and as aids to officers in their professional constructions hereafter, will be very much enhanced by having the dimensions clearly written on them, which should include at least those of all principal parts of machines and structures.This part of the course occupies about three weeks, inclusive of the time required to visit the works referred to.The officers will also be instructed, after they leave the course of construction, in the method of testing the quality of some of the materials by chemical analysis, for which a fortnight is allowed.Part III.—Valuation and Measurement of Work.This part of the course will occupy in all about 37 days, and will commence with a series of lectures, the subject matter of which will be found chiefly in the printed “Notes on the Practice of Building” and “Notes on the Building Trades.” They will comprise, in separate lectures for each trade,—1. The materials, tools, etc., and apparatus employed, together with their application to the different kinds of work produced.2. The technical terms in vogue.3. The general practice of measuring and valuing.Hints and memoranda useful in designing, estimating, and carrying out works will be given, and explanations afforded by reference to models anddrawings, from some of which colored sketches, with the names and dimensions of the different parts given on them in full, will be made by each officer and attached to his printed notes. These sketches will be done in the Hall of Study from the originals deposited there.A lecture will be given explaining the different steps taken in preparing the annual estimates of a district, to be laid before Parliament, and the various methods of carrying out the services which may be authorized.The cost of a building will be approximately estimated by cubing it out from the general plans and elevations.The quantities of the same building will then be taken out from the specifications, working drawings, and a model, by filling in a measurement form having the details of work done printed on it.Details and estimates of the same building will be made out on W.O. Form 1554, the items and prices being taken from the W.D. Schedules of the district, and the descriptive part printed on.Lastly, the quantities will be abstracted and brought into bill, as though the work were to be put up to tender, or as would be done in drawing out contractors’ bills for work to be paid for on a schedule of prices.The portions of the copper plates to be colored will be partly done in the course of lectures, but about a week at the close of this part of the course will be allowed to complete the whole. They are to be colored in the Hall of Study from pattern drawings deposited there. No drawing whatever to be removed from the Hall of Study.Part IV.—Design.At the commencement of this part of the course each officer will read through the “Notes on Military Buildings,” by Colonel Collinson, Royal Engineers, studying more particularly the parts which have special reference to his own design. The lithographed drawings which accompany them are not intended to be models to be copied from, but are given as examples of works executed, many of which with the advance of sanitary science have become obsolete as a whole. They contain many useful details still applicable.The design is intended to afford to each officer an opportunity of applying the knowledge he may have acquired in the course to some case which he may actually hereafter have to deal with.About six weeks are available for this part of the course, and the conditions under which the design is to be made will be furnished to each officer.As a rule the design will consist of a general plan and report, with some part worked out in detail, this part being specified for and estimated.The drawings are to be prepared in accordance with the instructions deposited in the Hall of Study.Tour Reports and Lectures.All tour reports and lectures pertaining to the course of construction will be written in accordance with the general regulations for reports, that is to say, on foolscap paper, quarter margin, on both sides of the paper, divided into paragraphs, with headings in the margin, and signed and dated by the officer. They will form part of Part II. of the course, and will be bound in the proper places.In writing tour reports and lectures the object should be to condense as much practical information and fact into as small a space as possible without abbreviating the language or omitting any of the facts. Sketches should be made by hand, approximately to scale, but should be clear, and contain full dimensions. Statistical and tabular information should be given in full.For the tour report each officer will receive a statement of the particulars of each work he has to report on.Binding.The whole of the notes, etc., of each officer will be bound in one or more volumes. Therefore, before leaving the establishment, each officer should arrange his notes in the order in which he wishes them bound.III.—FIELD WORK COURSE.The time allowed for this course is 122 days, including Sundays. While on it officers may be required to attend drill one day in each week, and also brigade field days.The course comprises instruction in all those duties (with the exceptions mentioned below) which devolve upon the Royal Engineers when employed with an army engaged offensively or defensively, either at a siege or in the field.The exceptions are surveying, reconnaissance, telegraphy, firing mines by electricity, etc., torpedoes, and demolition of permanent works; on all which subjects instruction is given to the officers while on other courses.The officers are required to read carefully the notes on field work instruction, to make models in sand, etc., of such works as admit of this practice, to take part in the construction of the several works in the field, etc., and to draw up projects on the subject.Before leaving the course an officer must be competent to impart instruction to sappers in all their field duties.The practical instruction is divided into seven parts.Part I.—Modelling in Sand, etc.This part consists of making models of gabions, fascines, hurdles, and sap-rollers; of throwing up models in sand of portions of a first parallel and its approaches, of a second parallel, of single and double saps, both kneeling and standing, of a trench cavalier, of a lodgment by half double sap, of rifle-pits, and of trons-de-loup.Also of making models in sand of field powder magazines, and of elevated, sunken, half sunken, and screen, gun and mortar batteries (ordinary and indented), revetted with gabions, fascines, and sand bags.It includes the laying of model gun and mortar platforms, the making of a salient of a field redoubt, with gun en barbette, of a field kitchen, and of the passage of a wet ditch by means of gabions and fascines.Also the erection of spar bridges of different forms with model spars, and the laying in of a cross-over road to connect two lines of railway.Part II.—Siege Works.This part consists of making gabions, fascines, hurdles, and sap-rollers; of tracing (part by night) parallels, approaches, batteries, etc.Also of seeing parallels, approaches, batteries, saps, trench cavaliers, etc., constructed by the sappers; and the mode of extending men and setting them to work.The officers are also required to take up for enfilade the prolongation of faces, etc.Part III—Works of Defence.This part consists of instruction in forming abattis, entanglements, rifle pits, trons-de-loup, etc., and in putting up stockades, palisades, fraises, etc.Part IV.—Mining.This part includes boring and blasting rock, sinking shafts, driving galleries, making chambers and powder hose, loading, tamping, and firing mines, also the preparation and firing of fougasses.Part V.—Bridging.This part includes knotting, splicing, and lashing spars, diving, rowing in boats, packing pontoons, and forming temporary military bridges over streams with large and small pontoons, casks, etc.Also the construction of spar, timber, and suspension bridges to reëstablish a communication by turnpike road or railroad.Part VI.—Railways.This part consists in seeing the mode of laying down and repairing lines of railway, and of putting in a cross-over road to connect two lines of railway, and also the mode of destroying railways.Part VII.—Sundry Practices.Under this head are included boring for water (with the American tube wells as well as with the ordinary apparatus), erecting field kitchens, filling and throwing hand grenades, and escalading, also the erection of field observatories.The officers are, in addition, required to draw up the following projects:1. Project of attack of a fortress actually in existence.2. Project for the restoration of a bridge.3. Project for a floating bridge.4. Project for a field work as a bridge-head.5. Hasty project for a temporary bridge, or hasty project for the demolition of a portion of a line of railway.IV.—MISCELLANEOUS SUBJECTS.(a.)Course of Telegraphy.—Fifteen days are allowed for this course.All officers under instruction learn the theory and practice of telegraphy and visual signalling, bearing in mind that a thorough knowledge of the theory will enable them to overcome difficulties which would be perplexing to the men, who can only be expected to learn the practical working of the telegraph.The various instruments in use for signalling and testing are explained to them, and they are taught the ordinary methods of measuring electrical forces and resistances, and of testing conducting wires for insulation and conductivity, and for determining the nature and positions of faults. The degree of accuracy which may be attained in these measurements is pointed out to them.They learn the European Morse alphabet, and the method of sending and receiving messages, but they are not expected to devote so much time to the subject as would enable them to become expert telegraphists.Each officer is required to give in a project for the construction of a line of electric telegraph, including at least three stations. In the report are described the instruments to be used and the modes of connecting them in circuit; the batteries, the conductors, the supports, the insulators, and the mode of putting up the line; and the number of cells required to work the line is calculated.An estimate of the stores and materials required accompanies the report, with a general plan showing the route proposed.The various methods of exploding gunpowder by electricity are taught while the course of telegraphy is going on; the application of this branch of electrical science is made when the officers are employed on projects for demolitions by mining.In the School of Telegraphy a certain number of the men of the corps are trained every year as telegraphists.The instruments of which the use is taught are.—The single needle instrument worked by voltaic electricity.The Morse recording and sounding instrument.The double needle instrument.Wheatstone’s magneto dial instrument.Also day and night signalling with the approved visual apparatus.Each man is required to read a specified number of words per minute, and to send correctly by each instrument, before he passes on to the next.The European Morse alphabet is used with all the instruments, except with the double needle instrument, which has a special alphabet.The men are taught how to make up and repair the voltaic batteries and instruments, and to put up conducting wires over ground, and to lay themunderground, and also to test roughly for the position of faults. Their previous education does not generally admit of their acquiring a knowledge of the theory of electricity, or of performing the more delicate tests required in telegraphy.The men who enter the Telegraph School are also instructed in the practical manipulation of Grove’s voltaic batteries, Wheatstone’s magnetic exploder, and the dynamo-electric machine, in the use of frictional electricity, in making the electrical fuzes, and in connecting and arranging the wires necessary for firing mines by electricity.(b.)Chemical Laboratory Course.—Fifteen days are allowed for this course.The object of this course is to enable officers and men at the establishment, who may show an inclination for chemical studies, to pursue them practically.The course is confined to the chemical relations and behavior of the substances which affect the qualities of building materials, or which may influence the questions which are most likely to require the professional investigation of a military engineer. It is arranged with the idea of supplying thewant of practical experience in dealing with substances used in construction, by giving an insight into their nature and composition; and also with that of imparting such information as may lead in a new colony, should an officer be called upon to act as its explorer and pioneer, to a more rapid development of its resources.The course for the officers consists,—1st. In making themselves acquainted with the action of reagents, both by wet methods and by the blow-pipe, on different simple substances, in experiments to which they are directed by a text-book.2d. In applying the information so gained to the qualitative examination of substances, simple and compound, specially prepared as exercises for analysis.3d. In the quantitative as well as qualitative examination of building stones, lime and cement stones, gypsum, brick earths, paints, solders, and other building materials. A sample of water is also examined, and a qualitative examination is made of one or more ores.4th. In preparing, on an experimental scale, bricks, limes, cements, and plasters, directly from natural stones or earths by simple calcination, and also by the more complex method which it is often necessary to adopt.5th. The chemistry of the voltaic battery.The course for the men only differs from that for the officers in respect of the order in which the several divisions of the subject are taken up. The men, instead of commencing with a thorough examination of numerous simple substances, begin with a few easy experiments on recognizing lime and cement stones, and on the mode of ascertaining their comparative values, so that, in case it is judged inexpedient, in any instance, that the whole course shall be completed, the knowledge which has been gained may be of a character requiring comparatively little skill and intelligence to apply to practical uses.A certain number of men only are taught.(c.)Course of Photography.This study is not compulsory; but any officer and a limited number of men who have completed the prescribed course satisfactorily, and who wish to study photography, are allowed to do so.The officers devote their attention more particularly to the chemical theory of the subject, in order that they may be able to overcome the practical difficulties which constantly occur when this art is pursued in foreign countries under circumstances of climate and situation different from those in England, and when chemicals get out of order and produce anomalous results. In such cases men who have acquired considerable skill in manipulation, but who have no knowledge of chemistry, are unable to devise remedies or to overcome difficulties, and it is the place of their officers to assist them by their superior knowledge and intelligence.The men are taught the negative wet collodion process in all its branches (except the manufacture of pyroxyline), also the dry process, and photozincography.They are also practised in the use of the dark tent, and in taking negatives in the field, and of photographic reductions of plans.It is seldom that their previous education admits of their becoming well versed in the chemical theory of the art, but the means of overcoming the usual practical difficulties are pointed out to them. Each man is required to enter in a note-book the various solutions, and to make memoranda of the processes.(d.)Lectures.Lectures are delivered between the months of September and April on civil and mechanical engineering, metallurgy, architecture, electricity and its applications, and on other subjects of a professional character. The lectures are attended by all the officers and men under instruction, and the former are required to take rough notes, and afterward to write them out fairly, for binding with their other work.(e.)Visits to Professional Works.With the object of giving an idea of the best methods of carrying on extensive works, and of imparting practical information on professional subjects, a certain number of the junior officers are selected every year to visitengineering, architectural, and other works of professional character, accompanied by one of the instructing officers of the establishment.Of the various constructions and processes seen during these tours they make notes and drawings, which are embodied in the form of reports to the director, and are subsequently bound up with the other parts of the course.General Note.—Further explanations of the mode of filling up the details of the course, and of the forms for the notes and drawings, are given in the special instructions.(f.)Demolitions.The ignition of gunpowder or other explosives by powder hose and Bickford’s fuze as well as by electricity, both on land and submerged under water, is taught to all officers.In order that the best methods of using gunpowder or other explosives for the demolition of works and buildings by mining may be thoroughly understood, each officer is required to make projects for the following demolitions, viz.:1. A front of fortification, or some similar work, exhibiting various sorts of revetments, and requiring the simultaneous explosion of a large number of mines.2. A casemate, powder magazine, or other substantial military building under two suppositions: 1st, that there is plenty of time, that sufficient men and tools are available, and that it is required to effect complete demolition without wasting gunpowder unnecessarily; 2d, that time presses, and that the demolition must be effected in the most expeditious manner possible.3. A bridge or viaduct under two different suppositions, as in No. 2.The mines in some cases are directed to be tired by powder hose, and in others by electricity.Each of these projects consists of a memoir and explanatory drawings. The memoir comprises,—1st. A description of the building, or work to be destroyed, in all points which may influence the mode of demolition.2d. A general description of the proposed mode of demolition.3d. The calculations for the charges of the mines.4th. The mode of preparing and firing the mines.5th. An estimate of the men, tools, and materials required and of the time necessary for the operation.6th. An estimate of the gunpowder.7th. When electricity is to be employed for firing the mines, a full description of the batteries, etc., is given, with calculations of the number of cells, etc.The drawings include a plan and such sections as may be required to explain clearly the situations of the various charges of gunpowder, and of the shafts and galleries.(g.)Submarine Mines.All officers and a certain number of men are practised in the use of submarine mines.The course consists of,—1. The nature and construction of case.2. Mode of mooring.3. Mode of arranging and laying insulated cables.4. Mode of testing fuzes, also testing cables for conductivity and insulation and for the detection of faults.5. Modes of firing at will and by self-acting arrangements.
I.—THE SURVEY COURSE.
The course of surveying for the officers of the Royal Engineers is intended to qualify them for carrying on survey operations of every description, and for designing and laying out engineering works, so far as these are influenced by the features of the ground on which they are placed, or over which they are carried.
The course consists of two parts,—the one relating to surveying processes exclusively, the other to the uses made of the plans and maps prepared by such processes, for engineering purposes.
Under the first of these divisions the officers are practically instructed in astronomical, general, special, and reconnoitring surveying, including the accurate delineation of the inequalities of ground by levelling and by contours traced instrumentally, and also the giving reliefs to hill forms by sketching with the pen and drawing with the brush.
Under the second division they are exercised in the adaptation of works of fortification to contoured sites, and in the selection and survey of lines of communication by roads, railways, and canals, and in drawing up projects for their execution.
Astronomical Surveying.
The officers are taught the construction and use of astronomical instruments, and are practised in making observations with them. They study from published works and memoranda printed at the establishment, the most useful problems for finding the time, the latitude and longitude, the direction of the meridian, and the variation of the compass.
Examples of each problem are worked out by them from their own observations or from observations made in their presence.
The use of meteorologicalinstrumentsand the reductions of the observations made with them are also practised.
General Survey.
As a preliminary exercise in drawing each officer constructs a plate of scales from data supplied to him. For particular information on the delicate and powerful instruments and apparatus which have been used in great national surveys, and which cannot be studied in the establishment observatory, the officers are referred to published works; and they are instructed in the adjustments, the unavoidable errors of construction, and the powers of the instruments put into their hands for the execution of their survey course.
The general survey comprises:
1st.The selection and measurement of a base.—The base is measured with an ordinary chain and a five-inch theodolite, and this measurement having been reduced to its horizontal value at the level of the sea, the section of the base is laid down on paper.
2d.Triangulation.—The measured base is extended by a triangulation over 10 or 16 square miles of country, and the relative altitudes of, and the distances between, the stations selected are determined from observations. The computed horizontal distances are laid down, and the azimuth of one of them is determined.
3d.Traversing.—The positions of the roads, streams, boundaries of woods, and other marked features, surrounding and intersecting an area of six or eight square miles of the country triangulated, are then determined by running traverses with a theodolite from one station to another, so as to cut up this area into spaces which will admit of being filled in by a less accurate method, without introducing an error in the plan.
4th.Plotting of detail and completion of the work.—The protracted lines are now transferred to another sheet of paper, and the detail, obtained as the traverses proceed, is plotted from the field-book. From this plot sketch sheets are prepared, and the remainder of the work is sketched in with the aid of a prismatic compass, the form of the ground being represented by pencil strokes, assisted by contours put in with the aid of a portable level.
The sketch sheets are etched in with a pen, and a finished brush-work plan of the complete survey, embracing all the information collected, is prepared from them, with the original plotted detail, as a basis.
Special Survey.
A piece of ground, about half a mile in area, is surveyed with minute accuracy as for some special purpose, and is laid down on a scale sufficiently large to admit of the calculation of the areas of the enclosures from the paper. The method followed is the same as that pursued on the Ordnance Survey, and with the Tithe Commutation Surveys, etc.
Contouring.—On the ground thus specially surveyed contours are traced instrumentally at given vertical distances apart and are plotted on the plan.
Military Reconnaissance.
This is conducted on principles similar to those which govern the operations of the general survey; the instruments employed, however, are all portable. The measurement of a base is made by such means as readily offer themselves (generally by pacing), and the trigonometrical points are fixed simply by protracting angles observed with a box sextant or compass. The whole of the remaining features and details considered necessary in a military point of view are sketched in with the aid of bearings and pacing. The reconnaissance embraces about six square miles.
In addition to the topographical sketch of the ground, each officer sends in a detailed report of its general character, its resources, and military capabilities. Each officer also makes a hasty reconnaissance of a road with a view toits employment as a military communication. All the information which can be obtained as to the character of the country through which it passes, and towns and villages near it, together with the construction, gradients, etc., of the road, are noted on the face of the sketch.
Fortification Branch.
Every officer is required, in this branch of the survey course, to design one or more works of defence for the occupation of a site, of which a contoured plan is furnished to him.
In performing this exercise the officer becomes, expert in reading the various forms and slopes of ground, as expressed by contours; he meets with and learns to provide for some of the many modifications of the conditions of defence which the occupation of irreglar sites necessitates, and he acquires facility in the application of descriptive geometry to the determination of the planes of defilade and the several planes of a work.
The data upon, which, the design, is framed consist of a plan of ground shown by contours and of some of the conditions to be filled by the proposed fortification, such as the objects for which; the site is occupied, the strength of the garrison, the extent, of the works, the nature of the defence of the ditches, the trace, or the, profile to be adopted, etc.
On the completion of his design the officer writes a report explanatory of the character of the works, he has adopted, and describing his arrangements both for the distant and near defence, with any improvements which have suggested themselves in working it out; and since the scale of the design, admits of considerable accuracy in its preparation, he is required to enter very fully into the detail of the arrangement he proposes.
The report is accompanied by tables showing how the remblai and deblai are equalized, and that the distribution of the latter is, economical.
Civil Applications.
Projects for a line of communication, general plan, and trial sections.—The officers are instructed in the general principles which should guide them in laying out lines of communication, whether by road, railway, or canal, and are then sent out to examine the country between two points five or six miles apart, and are required to decide on two or more routes which apparently offer the greatest facilities in point of gradients, soil, and the materials of construction. Availing themselves of the best map or plan they can obtain, they draw a plan showing approximately the divisions of the properties through which the trial lines are run; they then make trial sections; and from these sections and their previous examination of the ground, they determine on the line, to be adopted, embodying in a report a general description of the country, the obstacles encountered on each route, the gradients, curves, etc., and also the calculations which led to their decision. In their calculations they estimate the cost of the necessary constructions on each of the trial lines, the cost of conveyance for heavy goods on an assumed basis of daily traffic, and the time occupied in each case for quick transit.
Working plan and section.—A length of one mile of the route determined on as the best is selected, and for this a special survey is made, which is laid down as a working plan, the line being picketed out when no objection is made by the owners of the property through which it passes. A working section of the line is also prepared from accurate levels.
Plan of details, etc.—For the works proposed on that portion of the line Which is, included within the limits of the working section, a plan of details Is prepared, as well as a specification for the works and an estimate of their probable cost.
II. THE COURSE OF CONSTRUCTION AND ESTIMATING.
For this course 142 days, including Sundays, are allowed. The course is divided into four parts.
Part I—Theory of Construction.
This part consists of a series of examples in construction, about 50 in number, which will be varied from time to time.
They are drawn up with a special view to the application of the mathematical knowledge already possessed by the officers to some of the cases, which they are likely to have to deal with in practice.
References are given in the margin of the printed paper of examples tosome of the many books in which the information, necessary for their solution can he found.
The instructing officer will explain every morning, except Saturday, as many of the examples as he considers the officers can work during the remainder of the day, and the officers are expected to study these subjects from some one of the books referred to.
The object of these short explanations is twofold: 1st, to explain the principles on which the particular cases or similar cases are to be dealt with; 2d, to impart in a condensed form some of the varied information which is familiar to all engineers of experience, but which an engineer at the commencement of his career often has a difficulty in finding.
The officers will take notes of these explanations, and write each morning notes at the head of the fair copy of the examples, to which they refer. The examples explained on each day are to be worked out on that day in the fullest manner; the reasoning of each step is to be stated, and all rough calculations are to be left on the paper, so as to lessen as much as possible the labor of examination. They are to be brought to the instructing officer the following morning, and after examination are to be written out fair on ruled foolscap, quarter-margin, on the right-hand sheet, with explanatory diagrams to a large scale, where necessary, on the left-hand sheet.
The fair notes of each week’s work must be sent in before the end of the following week.
The weights, strength of materials, and other information, will be found in the printed tables.
This part of the course occupies about 40 days, and while it continues leave will be granted on Saturdays and Sundays only.
Part II.—Materials.
The object of this part of the course is to give the officers some sort of guide in judging of the quality of the principal materials which they will have to use, as well as to afford them information as to the particular material most suitable for a building or engineering work.
It may be subdivided into three parts, viz., lectures given by professors in the lecture theatre; lectures given by the instructing officer; and visits made by the officers to lime works, cement works, brickfields, etc.
The lectures in the lecture theatre are delivered at the periods most convenient to the lecturer, but the notes taken by the officers form part of this course, and will be bound up with the rest of the papers.
The notes of the lectures delivered by the instructing officer are to be written out fair immediately after the lecture, in accordance with the instructions given, and brought to, the instructing officer on the following morning.
A printed paper detailing the particular points to which officers visiting manufacturing works are to direct their attention will be given to each officer, and a report is to be sent in as soon as possible after each visit to the instructing officer.
Sketches to illustrate the lectures and visits are to be as numerous and complete as possible.
The value of these sketches for future reference, and as aids to officers in their professional constructions hereafter, will be very much enhanced by having the dimensions clearly written on them, which should include at least those of all principal parts of machines and structures.
This part of the course occupies about three weeks, inclusive of the time required to visit the works referred to.
The officers will also be instructed, after they leave the course of construction, in the method of testing the quality of some of the materials by chemical analysis, for which a fortnight is allowed.
Part III.—Valuation and Measurement of Work.
This part of the course will occupy in all about 37 days, and will commence with a series of lectures, the subject matter of which will be found chiefly in the printed “Notes on the Practice of Building” and “Notes on the Building Trades.” They will comprise, in separate lectures for each trade,—
1. The materials, tools, etc., and apparatus employed, together with their application to the different kinds of work produced.
2. The technical terms in vogue.
3. The general practice of measuring and valuing.
Hints and memoranda useful in designing, estimating, and carrying out works will be given, and explanations afforded by reference to models anddrawings, from some of which colored sketches, with the names and dimensions of the different parts given on them in full, will be made by each officer and attached to his printed notes. These sketches will be done in the Hall of Study from the originals deposited there.
A lecture will be given explaining the different steps taken in preparing the annual estimates of a district, to be laid before Parliament, and the various methods of carrying out the services which may be authorized.
The cost of a building will be approximately estimated by cubing it out from the general plans and elevations.
The quantities of the same building will then be taken out from the specifications, working drawings, and a model, by filling in a measurement form having the details of work done printed on it.
Details and estimates of the same building will be made out on W.O. Form 1554, the items and prices being taken from the W.D. Schedules of the district, and the descriptive part printed on.
Lastly, the quantities will be abstracted and brought into bill, as though the work were to be put up to tender, or as would be done in drawing out contractors’ bills for work to be paid for on a schedule of prices.
The portions of the copper plates to be colored will be partly done in the course of lectures, but about a week at the close of this part of the course will be allowed to complete the whole. They are to be colored in the Hall of Study from pattern drawings deposited there. No drawing whatever to be removed from the Hall of Study.
Part IV.—Design.
At the commencement of this part of the course each officer will read through the “Notes on Military Buildings,” by Colonel Collinson, Royal Engineers, studying more particularly the parts which have special reference to his own design. The lithographed drawings which accompany them are not intended to be models to be copied from, but are given as examples of works executed, many of which with the advance of sanitary science have become obsolete as a whole. They contain many useful details still applicable.
The design is intended to afford to each officer an opportunity of applying the knowledge he may have acquired in the course to some case which he may actually hereafter have to deal with.
About six weeks are available for this part of the course, and the conditions under which the design is to be made will be furnished to each officer.
As a rule the design will consist of a general plan and report, with some part worked out in detail, this part being specified for and estimated.
The drawings are to be prepared in accordance with the instructions deposited in the Hall of Study.
Tour Reports and Lectures.
All tour reports and lectures pertaining to the course of construction will be written in accordance with the general regulations for reports, that is to say, on foolscap paper, quarter margin, on both sides of the paper, divided into paragraphs, with headings in the margin, and signed and dated by the officer. They will form part of Part II. of the course, and will be bound in the proper places.
In writing tour reports and lectures the object should be to condense as much practical information and fact into as small a space as possible without abbreviating the language or omitting any of the facts. Sketches should be made by hand, approximately to scale, but should be clear, and contain full dimensions. Statistical and tabular information should be given in full.
For the tour report each officer will receive a statement of the particulars of each work he has to report on.
Binding.
The whole of the notes, etc., of each officer will be bound in one or more volumes. Therefore, before leaving the establishment, each officer should arrange his notes in the order in which he wishes them bound.
III.—FIELD WORK COURSE.
The time allowed for this course is 122 days, including Sundays. While on it officers may be required to attend drill one day in each week, and also brigade field days.
The course comprises instruction in all those duties (with the exceptions mentioned below) which devolve upon the Royal Engineers when employed with an army engaged offensively or defensively, either at a siege or in the field.
The exceptions are surveying, reconnaissance, telegraphy, firing mines by electricity, etc., torpedoes, and demolition of permanent works; on all which subjects instruction is given to the officers while on other courses.
The officers are required to read carefully the notes on field work instruction, to make models in sand, etc., of such works as admit of this practice, to take part in the construction of the several works in the field, etc., and to draw up projects on the subject.
Before leaving the course an officer must be competent to impart instruction to sappers in all their field duties.
The practical instruction is divided into seven parts.
Part I.—Modelling in Sand, etc.
This part consists of making models of gabions, fascines, hurdles, and sap-rollers; of throwing up models in sand of portions of a first parallel and its approaches, of a second parallel, of single and double saps, both kneeling and standing, of a trench cavalier, of a lodgment by half double sap, of rifle-pits, and of trons-de-loup.
Also of making models in sand of field powder magazines, and of elevated, sunken, half sunken, and screen, gun and mortar batteries (ordinary and indented), revetted with gabions, fascines, and sand bags.
It includes the laying of model gun and mortar platforms, the making of a salient of a field redoubt, with gun en barbette, of a field kitchen, and of the passage of a wet ditch by means of gabions and fascines.
Also the erection of spar bridges of different forms with model spars, and the laying in of a cross-over road to connect two lines of railway.
Part II.—Siege Works.
This part consists of making gabions, fascines, hurdles, and sap-rollers; of tracing (part by night) parallels, approaches, batteries, etc.
Also of seeing parallels, approaches, batteries, saps, trench cavaliers, etc., constructed by the sappers; and the mode of extending men and setting them to work.
The officers are also required to take up for enfilade the prolongation of faces, etc.
Part III—Works of Defence.
This part consists of instruction in forming abattis, entanglements, rifle pits, trons-de-loup, etc., and in putting up stockades, palisades, fraises, etc.
Part IV.—Mining.
This part includes boring and blasting rock, sinking shafts, driving galleries, making chambers and powder hose, loading, tamping, and firing mines, also the preparation and firing of fougasses.
Part V.—Bridging.
This part includes knotting, splicing, and lashing spars, diving, rowing in boats, packing pontoons, and forming temporary military bridges over streams with large and small pontoons, casks, etc.
Also the construction of spar, timber, and suspension bridges to reëstablish a communication by turnpike road or railroad.
Part VI.—Railways.
This part consists in seeing the mode of laying down and repairing lines of railway, and of putting in a cross-over road to connect two lines of railway, and also the mode of destroying railways.
Part VII.—Sundry Practices.
Under this head are included boring for water (with the American tube wells as well as with the ordinary apparatus), erecting field kitchens, filling and throwing hand grenades, and escalading, also the erection of field observatories.
The officers are, in addition, required to draw up the following projects:
1. Project of attack of a fortress actually in existence.2. Project for the restoration of a bridge.3. Project for a floating bridge.4. Project for a field work as a bridge-head.5. Hasty project for a temporary bridge, or hasty project for the demolition of a portion of a line of railway.
1. Project of attack of a fortress actually in existence.
2. Project for the restoration of a bridge.
3. Project for a floating bridge.
4. Project for a field work as a bridge-head.
5. Hasty project for a temporary bridge, or hasty project for the demolition of a portion of a line of railway.
IV.—MISCELLANEOUS SUBJECTS.
(a.)Course of Telegraphy.—Fifteen days are allowed for this course.
All officers under instruction learn the theory and practice of telegraphy and visual signalling, bearing in mind that a thorough knowledge of the theory will enable them to overcome difficulties which would be perplexing to the men, who can only be expected to learn the practical working of the telegraph.
The various instruments in use for signalling and testing are explained to them, and they are taught the ordinary methods of measuring electrical forces and resistances, and of testing conducting wires for insulation and conductivity, and for determining the nature and positions of faults. The degree of accuracy which may be attained in these measurements is pointed out to them.
They learn the European Morse alphabet, and the method of sending and receiving messages, but they are not expected to devote so much time to the subject as would enable them to become expert telegraphists.
Each officer is required to give in a project for the construction of a line of electric telegraph, including at least three stations. In the report are described the instruments to be used and the modes of connecting them in circuit; the batteries, the conductors, the supports, the insulators, and the mode of putting up the line; and the number of cells required to work the line is calculated.
An estimate of the stores and materials required accompanies the report, with a general plan showing the route proposed.
The various methods of exploding gunpowder by electricity are taught while the course of telegraphy is going on; the application of this branch of electrical science is made when the officers are employed on projects for demolitions by mining.
In the School of Telegraphy a certain number of the men of the corps are trained every year as telegraphists.
The instruments of which the use is taught are.—
The single needle instrument worked by voltaic electricity.The Morse recording and sounding instrument.The double needle instrument.Wheatstone’s magneto dial instrument.Also day and night signalling with the approved visual apparatus.
The single needle instrument worked by voltaic electricity.
The Morse recording and sounding instrument.
The double needle instrument.
Wheatstone’s magneto dial instrument.
Also day and night signalling with the approved visual apparatus.
Each man is required to read a specified number of words per minute, and to send correctly by each instrument, before he passes on to the next.
The European Morse alphabet is used with all the instruments, except with the double needle instrument, which has a special alphabet.
The men are taught how to make up and repair the voltaic batteries and instruments, and to put up conducting wires over ground, and to lay themunderground, and also to test roughly for the position of faults. Their previous education does not generally admit of their acquiring a knowledge of the theory of electricity, or of performing the more delicate tests required in telegraphy.
The men who enter the Telegraph School are also instructed in the practical manipulation of Grove’s voltaic batteries, Wheatstone’s magnetic exploder, and the dynamo-electric machine, in the use of frictional electricity, in making the electrical fuzes, and in connecting and arranging the wires necessary for firing mines by electricity.
(b.)Chemical Laboratory Course.—Fifteen days are allowed for this course.
The object of this course is to enable officers and men at the establishment, who may show an inclination for chemical studies, to pursue them practically.
The course is confined to the chemical relations and behavior of the substances which affect the qualities of building materials, or which may influence the questions which are most likely to require the professional investigation of a military engineer. It is arranged with the idea of supplying thewant of practical experience in dealing with substances used in construction, by giving an insight into their nature and composition; and also with that of imparting such information as may lead in a new colony, should an officer be called upon to act as its explorer and pioneer, to a more rapid development of its resources.
The course for the officers consists,—
1st. In making themselves acquainted with the action of reagents, both by wet methods and by the blow-pipe, on different simple substances, in experiments to which they are directed by a text-book.
2d. In applying the information so gained to the qualitative examination of substances, simple and compound, specially prepared as exercises for analysis.
3d. In the quantitative as well as qualitative examination of building stones, lime and cement stones, gypsum, brick earths, paints, solders, and other building materials. A sample of water is also examined, and a qualitative examination is made of one or more ores.
4th. In preparing, on an experimental scale, bricks, limes, cements, and plasters, directly from natural stones or earths by simple calcination, and also by the more complex method which it is often necessary to adopt.
5th. The chemistry of the voltaic battery.
The course for the men only differs from that for the officers in respect of the order in which the several divisions of the subject are taken up. The men, instead of commencing with a thorough examination of numerous simple substances, begin with a few easy experiments on recognizing lime and cement stones, and on the mode of ascertaining their comparative values, so that, in case it is judged inexpedient, in any instance, that the whole course shall be completed, the knowledge which has been gained may be of a character requiring comparatively little skill and intelligence to apply to practical uses.
A certain number of men only are taught.
(c.)Course of Photography.
This study is not compulsory; but any officer and a limited number of men who have completed the prescribed course satisfactorily, and who wish to study photography, are allowed to do so.
The officers devote their attention more particularly to the chemical theory of the subject, in order that they may be able to overcome the practical difficulties which constantly occur when this art is pursued in foreign countries under circumstances of climate and situation different from those in England, and when chemicals get out of order and produce anomalous results. In such cases men who have acquired considerable skill in manipulation, but who have no knowledge of chemistry, are unable to devise remedies or to overcome difficulties, and it is the place of their officers to assist them by their superior knowledge and intelligence.
The men are taught the negative wet collodion process in all its branches (except the manufacture of pyroxyline), also the dry process, and photozincography.
They are also practised in the use of the dark tent, and in taking negatives in the field, and of photographic reductions of plans.
It is seldom that their previous education admits of their becoming well versed in the chemical theory of the art, but the means of overcoming the usual practical difficulties are pointed out to them. Each man is required to enter in a note-book the various solutions, and to make memoranda of the processes.
(d.)Lectures.
Lectures are delivered between the months of September and April on civil and mechanical engineering, metallurgy, architecture, electricity and its applications, and on other subjects of a professional character. The lectures are attended by all the officers and men under instruction, and the former are required to take rough notes, and afterward to write them out fairly, for binding with their other work.
(e.)Visits to Professional Works.
With the object of giving an idea of the best methods of carrying on extensive works, and of imparting practical information on professional subjects, a certain number of the junior officers are selected every year to visitengineering, architectural, and other works of professional character, accompanied by one of the instructing officers of the establishment.
Of the various constructions and processes seen during these tours they make notes and drawings, which are embodied in the form of reports to the director, and are subsequently bound up with the other parts of the course.
General Note.—Further explanations of the mode of filling up the details of the course, and of the forms for the notes and drawings, are given in the special instructions.
(f.)Demolitions.
The ignition of gunpowder or other explosives by powder hose and Bickford’s fuze as well as by electricity, both on land and submerged under water, is taught to all officers.
In order that the best methods of using gunpowder or other explosives for the demolition of works and buildings by mining may be thoroughly understood, each officer is required to make projects for the following demolitions, viz.:
1. A front of fortification, or some similar work, exhibiting various sorts of revetments, and requiring the simultaneous explosion of a large number of mines.
2. A casemate, powder magazine, or other substantial military building under two suppositions: 1st, that there is plenty of time, that sufficient men and tools are available, and that it is required to effect complete demolition without wasting gunpowder unnecessarily; 2d, that time presses, and that the demolition must be effected in the most expeditious manner possible.
3. A bridge or viaduct under two different suppositions, as in No. 2.
The mines in some cases are directed to be tired by powder hose, and in others by electricity.
Each of these projects consists of a memoir and explanatory drawings. The memoir comprises,—
1st. A description of the building, or work to be destroyed, in all points which may influence the mode of demolition.
2d. A general description of the proposed mode of demolition.
3d. The calculations for the charges of the mines.
4th. The mode of preparing and firing the mines.
5th. An estimate of the men, tools, and materials required and of the time necessary for the operation.
6th. An estimate of the gunpowder.
7th. When electricity is to be employed for firing the mines, a full description of the batteries, etc., is given, with calculations of the number of cells, etc.
The drawings include a plan and such sections as may be required to explain clearly the situations of the various charges of gunpowder, and of the shafts and galleries.
(g.)Submarine Mines.
All officers and a certain number of men are practised in the use of submarine mines.
The course consists of,—
1. The nature and construction of case.
2. Mode of mooring.
3. Mode of arranging and laying insulated cables.
4. Mode of testing fuzes, also testing cables for conductivity and insulation and for the detection of faults.
5. Modes of firing at will and by self-acting arrangements.