(c) Recommended for reference:

Gilreath, E. S., Fundamental Concepts of Inorganic Chemistry. (McGraw-Hill.) Gould, E. S., Inorganic Reactions and Structure. (Holt.)t

Brown, R. D. and O'Donnell, T. A., Manual of Elementary Practical Chemistry. (3rd ed., M.U.P.)

Books marked t are used by students proceeding to Chemistry II and Chemistry III.

EXAMINATION

One 3-hour paper in Physical Chemistry, one a-hour paper. in Inorganic Chemistry and one a-hour paper in Organic Chemistry.

The practical work of each student is assessed continually throughout the year, and is taken into account in determining the success of candidates at the Annual Examination.

(c) Recommended for general reading and reference:

Moeller, T., Inorganic Chemistry. (znd ed., Wiley.)

Tedder, J. M. and Nechvatal, A, Basic Organic Chemistry. (Wiley, 1966.) Coulson. C. A., Valence. (ind ed., O.U.P.)

Wells, A. F., Structural Inorganic Chemistry. (3rd ed., O.U.P.)

Latimer, W. M., The Oxidation States of the Elements. (Prentice-Hall.)

Sidgwick, N. V., The Chemical Elementx and their Compounds, z vols. (O.U.?.) Moelwyn-Hughes, E. A., Physical Chemistry. (Pergamon.)

Steiner, L. E., Introduction to Chemical 7 nermodynamics. (and ed., McGraw-Hill.).

Sanderson, Chemical Periodicity. (Reinhold, 1960.)

Glasstone, S., Introduction to Electrochemistry. (Van Nostrand.)

Findlay, A. and Kitchener, J. A.. Practical Physical Chemistry. (8th ed., Longmans.) Kemy, H., Treatise on Inorganic Chemistry, a vols. (Elsevier.)

Ketelaar, J. A. A., Chemical Constitution. (ind ed., Elsevier.)

Emeléus, H. J. and Anderson, J. S., Modern Aspects of Inorganic Chemistry. (3rd ed.

Routledge.)

Kolthoff, I. M. and Sandell, E. B., Textbook of Quantitative Inorganic Analysis.

(Macmillan.)

Barnard, A. K., Theoretical Basis of Inorganic Chemistry. (1st ed., McGraw-Hill.) Bailar, J. C., Chemistry of Coordination Compounds. (Reinhold.)

EXAMINATION

One 3-hour paper in physical chemistry, and one i-hour paper in organic chemistry and one 3-hour paper in inorganic chemistry. Students who have not maintained a satis- factory standard in the laboratory course throughout the year will be required to take a practical examination.

583.

CIVIL ENGINEERING

(Staff of Civil Engineering Department and visiting lecturers)

A course of about 8 lectures per week, with about 14 hours per week of laboratory, drawing office and practice classes throughout the year.

SYLLAвцs

1. Structural Engineering and Elasticity. Analysis and design of statically indeterminate structures such as trusses, rigid frames, arches and shells. Inelastic behaviour. Matrix methods of analysis.

Concrete mix design. Concrete quality control. Reinforced and prestressed concrete structures.

Introduction to elasticity theory and photoelasticity.

Stabi1ity of structures and componets. Vibrations of beams and frames. Elementary plate and shell theory.

Laboratory techniques—measurement of strain, methods of testing structures.

Computer methods in structural analysis.

2. Hydraulic Engineering. Topics in the following fields

Hydrology: Precipitation, runoff, infiltration, ground water, floods.

Sewerage and Drainage: Sewerage and drainage schemes. Sewage disposal.

Water Supply: Water supply schemes. Purification.

Irrigation: Water requirements and losses, irrigation methods, control and distribution structures.

Conduits: Channels, pipes. Variable flow in channels. Waves. Flow measurement.

Dams and Storages: Types, outlet and diversion works, spillways, gates, energy dissipators.

River regulation, weirs, sediment transport.

Water Power: Performance, cavitation, speed regulation, testing of turbines. Surge tanks.

Water power schemes.

Coastal Engineering. .

Flow nets.

Hydraulic similitude.

3. Soil Engineering. Stress—strain behaviour of soils. Mathematical models. Elastic and limit methods applied to settlement and stability analysis—foundations, retaining

structures and slopes. See page, earth dams.

4. Transport Engineering:

Topics in the following fields :

Transport systems, operating characteristics and technology. Transport planning and economics. Highway design and construction practice. Flexible pavement design, mechanical behaviour of materials under static and dynamic stress. Airports, railways and pipelines. Traffic engineering.

66

5. Engineering Practices.

(a) Engineering Construction. Topics such as the following: foundation methods, timber- ing, de-watering, under-pinning, etc. Structural steel fabrication. Methods of reinforced concrete construction, form-work, precasting. Erection methods.

(b) Engineering Organization and Economics. Topics such as the following: organization of civil engineering works, contracts and specifications, economic comparison of projects, financing of projects, costing, legal aspects.

LABORATORY, DRAWING OFFICE AND CLASSROOM WORK This will usually include the following:

(t) original designs of structures in part or whole;

(z) a scheme of water supply, irrigation, power, sewerage, etc.;

(з) laboratory work including projects;

(4) discussion groups, visits to works in progress and special lectures by visiting speakers;

(5) essays and reports.

No student will be admitted to the Final Examination without evidence of satisfactory laboratory and drawing office work, which will be assessed in the deciding of examination results. Records of laboratory and drawing office work must be submitted periodically as required. Additional tests may be set during the year; the results of these may be taken into account in assessing examination results.

BOOKS

(a) Recommended for preliminary reading:

Torroja, E., Philosophy of Structures. (Univ. of California Press.) Rouse, H. and Ince, S., History of Hydraulics. (State U. of Iowa, 1957.) Birkhoff, G., Hydro-dynamics. (Dover.)

(b) Prescribed text-books

"Matheson, J. A. L. and Francis, A. J., Hyperstatic Structures, Vols. 1 and z. (Butterworth Scientific Publications.)

Hay, W. W., An Introduction to Transportation Engineering. (Wiley.) Buchanan, C., Тгаffic in Towns. (Penguin.)

*Ferguson, P. M., Reinforced Cопcrеtе Fundamentals. (Wiley.)

or *Cowan, H.

J.

and Smith, P. R., Design of Reinforced Concrete. (Angus & Robertson.) Lin, T. Y., Prestressed Concrete Structures. (znd ed., Wiley.)

Albertson, M. L., Barton, J. R. and Simons, D. B., Fluid Mechanics for Engineers. (Prentice.

Hall, 1g6o.)

Davis, C. V., Handbook of Applied Hydraulics. (McGraw-Hill.) Wu, T. H., Soil Mechanics. (Allyn & Bacon.)

(c) Recommended for reference:

(i) Structural Engineering and Elasticity.

Norris, C. H. and Wilbur, J. B., Elementary Structural Analysis. (McGraw-Hill.) Probst, E. H. and Corne, J., Civil Engineering Reference Book. (Butterworth.) Baker, J. F., Horne, M. R. and Heyman, J., The Steel Skeleton, Vol. II. (C.U.P.) Beedle, L. S» Plastic Design of Steel Frames. (Wiley.)

Hall, A. S. and Woodhead, R. W., Frame Analysis. (Wiley.) Hoff, N. J., The Analysis of Structures. (Wiley.)

Parcel, J. L and Moorman, R. B. B., Analysis of Statically Indeterminate Structures.

(Wiley.)

Neville, A. M., Properties of Concrete. (Pitman.) Leonhardt, F., Prestressed Concrete. (2nd ed., Ernst.) Murdock, L. J., Concrete Materials and Practice. (Arnold.)

Timoshenko, S. and Goodier, J. N., Theory of Elasticity. (and ed., McGraw-HilL) Durelli, A. J., Phillips, E. A. and Tsao, C. H., Introduction to the Theoretical and

Experimental Analysis of Stress and Strain. (McGraw

-

^Hill.)

Frocht, M. M., Photoelasticity, vol. ì. (Wiley.)

Timoshenko, S. P. and Gere, Т. M., Theory of Elastic Stability. (nd ed., McGraw-Hill.) Golden, I. T., Fortran IV, Programming and Computing. (Prentice-Hall.)

McCracken, D. D. and Dorn, W. S., Numerical Methods and Fortran Programme (Wiley.)

Timoshenko, S. and Woinowsky-Krieger, S., Theory of Plates and Shells. (McGraw-Hill.)

() Hydraulic Engineering. .

Hydraulics

Streeter, V. L., Fluid Mechanics. (McGraw-Hill.

Streeter, V. L, Handbook of Fluid Dynamics. (McGraw-Hill.) Chow, V. Tc., Open Channel Hydraulics. (McGraw-Hill.)

Jaeger, C., Engineering Fluid Mechanics. (Blackie.) Rouse, H., Engineering Hydraulics. (Wiley.)

Rouse, H., Elementary Mechanics of Fluids. (Wiley.) Vallentine, H. R., Applied Hydrodynamics. (Butterworth.) Leliaysky, S., An Introduction to Fluvial Hydraulics. (Constable.)

Hydraulic Models—A.S.C.E. Manual of 'Engineering Practice, No. гΡ5 (1942).

Allen, J., Scale Models in Hydraulic Engineering. (Longmans.) Structures

Schoklitsch, A., Hydraulic Structures, Vols. I, II. (Amer. Sоc. Mech. Eng.) Elevatorski, E. A., Hydraulic Energy Dissipators. (McGraw-Hill.)

Water Supply

Babbitt, H. E., Doland, J. J. and Cleasby, J. L., Water Supply Engineering. (6th ed., McGraw-Hill.)

Sewerage and Stormwater Drainage

Babbitt, H. E. and Baumann, E. R., Sewerage and Sewage Treatment; (8th ed., Wiley.) Fair, G. M. and Geyer, J. C., Water Supply and Waste Water Disposal. (Wiley.) Imhoff, K. and Fair, G. M., Sewage Treatment. (2nd ed., Wiley.)

Irrigation

Etcheverry, B. A., Irrigation Practice and Engineering, 3 vols. (McGraw-Hill.) Houk, I. E., Irrigation Engineering, Vols. I and II. (Wiley.)

Leliaysky, S., Irrigation and Hydraulic Design, Vol. I. (Chapman and Hall.) Hydro-electric Engineering

Spannhake, W., Centrifugal Pumps, Turbines and Propellers. (Mass. Inst.. Tech.) Wislicenus, G. E., Fluid Mechanics of Turbomachinery. (McGraw-Hill.)

Brown, J. G.. Hydro-electric Engineering Practice, Vols. I, II and III. (Blackie.) Hydrology

Linsley, R. K., Kohler, M. A. and Paulhus, J. L. H., Hydrology for Engineers. (McGraw Hi11J

Tоdd, D. K., Ground Water Hydrology. (Wiley.) Wisler, C. O. and Brater, E. F., Hydrology. (Wiley.) (3) Soil Engineering.

Taylor, D. W., Fundamentals of Soil Mechanics. (Wiley.) Scott, R. F., Principles of Soil Mechanics. (Addison Wesley.) Terzaghi, K. V., Theoretical Soi/ Mechanics. (Wiley.)

Bishop, A. W. and Henkel, D. J., The Measurement of Soil Properties in the Triaxial Test.

(Edward Arnold.)

Henry, F. D. C., The Design and Construction of Engineering Foundations. (Spon.) Peck, R. B., Hanson, W. E. and Thornburn, T. H., Foundation Engineering. (Wiley.) (4) Transportation Engineering.

As advised during the year.

EXAMINATION

Six 3-hour papers for Pass and Honours.

652. COMPUTER PROGRAMMING

A course of one lecture per week during first term with practical work.

SYLLABUS

Computer programming as dealt with in the lectures in 'Data Processing and Computers' during first term.

PRACTICAL WORK

About ten hours of demonstrations of digital computers and exercises in writing com- puter programs.

PRESCRIBED TEXT-BOOK

Fortran IV Manual supplied by the Computation Departmeńt.

EXAMINATION

There will be no formal. examination; a pass in this subject will be granted on successful completion of a prescribed project.

601. DATA PROCESSING AND COMPUTERS (Dr Hirst, Mr Palfreyman)

A course of one lecture per week throughout the year with laboratory and tutorial classes as arranged.

SYLLABUS

Lectures to be selected from the following:

Digital computer operation, computer logic, Binary arithmetic, Boolean algebra, computer circuitry (gates, flip-flops, etc.), codes, error checking and correction, computer organiza.

68

till and management, types of computers and peripherals, data processing systems, flow charts, report generation, programming languages (Fortran, etc.), analogue computers, analogue/digital conversion, application of digital computers to engineering com- putations.

LABORATORY WORK

Laboratory work in the use of digital and analogue computers will be conducted at appropriate times during the course.

BOOKS

(a) Prescribed text-books:

Siegel, P., Understanding Digital Computers. (John Wiley and Sons.

Jackson, A. S., Analog Computation. (McGraw-Hill.) (b) Kecomnien dеd for reference:

Grabbe. E M., Ramo, S. and Wooldridge, D. E., Handbook of Automation, Computation and Control. (John Wiley and Sons.)

McCraken. D. D., Digital Computer Programming. (John Wiley and Sons.)

Alt, Franz L.. Electronic Digital Computers—Their Use in Science and Engineering.

(Academic Press.) EXAMINATION

There is no formal examination. Candidates are judged on project work presented during the course.

577

-

1. DISCUSSION SESSIONS PART I (Various lecturers from other faculties and institutions)

A course of about 15 lectures and tutorials on Rhetoric followed by 35 hours of study of a selected novel.

Essay and project work will be prescribed and candidates will be assessed on the work performed during the year.

577-2. DISCUSSION SESSIONS PART II (Various lecturers from other faculties)

A course of 50 hours in first and second term generally on literary or historical and.

artistic topics in a limited field.

Some reading and essay or project work will be included and candidates will be assessed on the work performed.

556-1. DYNAMICS OF MACHINES PART I' (Mr Ritchie)

A course of 26 lectures with 18 hours of tutorial and practice classes.

SYLLABUS

(a) Kinematics:

-

Mechanism. Relative plane motion. Instant centres. Velocity and acceleration diagrams. Application to plane mechanisms including cams and gears.

(b) Kinetics: Forces in machine members, torque diagrams. Flywheels. Power trans- mission; gear trains, belts, clutches, brakes, power screws. Balancing of rotating masses.

Vibration of systems with one degree of freedom; undamped and damped free and forced vibration. Transmissibility.

BOOKS

Recommended for reference:

Nara, H. R., Vector Mechanics for Engineers, Part II: Dynamics. (Wiley.) Shigley, J. E, Theory of Machines. (International Student Edition, McGraw-Hill.) Note: Numerous other texts will be referred to throughout the course.

EXAMINATION

One 3-hour paper for Pass and Honours. In order to pass the subject, students must reach a satisfactory standard both in the practical work and the written paper.

556-2. DYNAMICS OF MACHINES PART II (Mr Clifton)

A course of 36 lectures and zq hours' laboratory work. Tutorial classes will be arranged.

SYLLABUS

(a) Kinematics: Further relative plane motion. Moving axes. Degrees of freedom of a mechanism. Euler Savary equation. Inflection circle. Acceleration pole. Bobillier con- struction. Polodes and polode curvature. Applications to plane mechanism.

69

(b) Kinetics: Energy and momentum integrals of the equations of motion of a rigid body and system of particles. D'Alembert's principle. The inertia constants of a rigid body.

Principal axes. Forces in mechanisms. Balancing of rotating and reciprocating masses.

Moving frames of reference in dynamic problems, with application to rotors in vehicles and gyroscopes. Eulei s dynamical equations. Lagrange's equations.

(c) Lubrication: Hydrodynamic lubrication, an introduction.

BOOKS

Recommended for reference:

Hirschhorn, J., kinematics and Dynamics of Plane Mechanisms. (McGraw-Hill.) Hunt, K. H., Mechanisms and Motion. (E.U.P.)

Bevan, T., Theory of Machines. (Longmans.)

Rutherford,

D. E.,

Classical Mechanics. (Oliver & Boyd.) leriam, J. L., Dynamics. (Wiley, 1966.)

Arnold, R. N. and . launder,

L.,

Gyrodynamics and its Engineering Applications.

(Academic Press.)

Lamb, H., Higher Mechanics. (C.U.P.)

Greenwood, D. T., Principles of Dynamics. (Prentice-Ha11.)

Hunsaker, J. C. and Rightmire, B. G., Engineering Applications of Fluid Mechanics.

(McGraw-Hill.)

Barwell,

F. T.,

Lubrication of Bearings. (Butterworth.) EXAMINATION

One 3-hour paper for Pass and Honours. In order to pass the subject, students must reach

a

satisfactory standard both in the practical work and the written paper.