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| Civil, Mech, Auto, Chem, Rubber, Plastic Engineering |
Gujarat University
Teaching & Examination Scheme
Effective from Academic year 2007 onwards
B.E. FIRST YEAR - (CIVIL, MECH, AUTO, CHEM, RUBBER, PLASTIC EN)50 |
| Sr. No. |
Subject Title |
Teaching
Scheme |
Examination
Scheme |
Th.
Hrs |
Pr.
Hrs. |
Tut. |
Theory |
T.W. Max |
Sess Mark |
Total Mark |
| Hrs. |
Max Marks |
| CN 101 |
Mathematics – I |
3 |
- |
- |
4 |
100 |
- |
50 |
150 |
| CN 102 |
Elements of Civil Engineering |
2 |
2 |
- |
3 |
100 |
50 |
50 |
200 |
| CN 103 |
Engineering Mechanics |
2 |
1 |
- |
3 |
100 |
25 |
50 |
175 |
| CN 104 |
Strength of Material |
2 |
1 |
- |
3 |
100 |
25 |
50 |
175 |
| CN 105 |
Material Science |
2 |
- |
- |
3 |
100 |
- |
50 |
150 |
| CN 106 |
Engineering Graphics |
3 |
4 |
- |
4 |
100 |
50 |
50 |
200 |
| CN 107 |
Elements of Mechanical |
2 |
1 |
- |
3 |
100 |
25 |
50 |
175 |
| CN 108 |
Elements of Electrical Engineering |
2 |
1 |
- |
3 |
100 |
25 |
50 |
175 |
| CN 109 |
Modern Workshop Practice |
- |
2 |
- |
- |
- |
50 |
- |
50 |
| Total |
18 |
12 |
- |
- |
800 |
250 |
400 |
1450 |
|
| Th. = Theory hours/week |
| Tut. = Tutorial hours/week Sess. = Sessional |
|
GUJART UNIVERSITY
BE. - 1st Year (CIVIL, MECH, AUTO, CHEM, RUBBER, PLASTIC, ENV, IT)
CN 101 MATHEMATICS - I |
|
| Subject |
Code |
Teaching
Scheme |
Examination
Scheme |
| Theory |
Lab / Pract |
Exam |
Theory Paper |
Theory Marks |
Pract/
Oral |
TW |
Total |
| Mathematics – I |
CN 101 |
03 |
- |
Sessional |
2 Hrs |
50 |
- |
- |
150 |
| University |
4 Hrs |
100 |
|
| Course Content : |
1. Differential Calculus : Successive Differentiation: Leibnitz Theorem, Taylor's And Maclaurin's Expansion Indeterminate Forms.
2. Partial Differentiation: Partial and total differential cofficients, Eluer's Theorem or homogeneous function Jacobeans, Errors and Approximations, Maxima and Minima of Functions of two variables, Lagrange's Method, Undetermined Multipliers to Determine Stationary Values.
3. Tracing of Curves: Asymptotes (Parallel to axes and oblique) Tracing of Cartesian, Parametric and Polar Curves
4. Integral Calculus:
Reduction Formula:
5. Multiple Integrals: Introduction to Double Integral, evaluation of double integrals in Cartesian and polar co-ordinate systems over a give region. Change in the order of double Integration, Transformation of double integrals from Cartesian to Polar co-ordinate system, Evaluation of Triple Integrals, Applications of double Integration to Areas of mass in Cartesian and polar co-ordinate systems.
6. Complex Numbers: DeMoiver's Theorem and its Applications, Exponential function Complex Variables. Circular Hyperbolic functions of complex variables, relations between them. Inverse Hyperbolic functions and Logarithm functions of complex variable.
7. Infinite Series: Definition of convergence & divergence of an infinite series, Comparison Test, Cauchey's Integer Test, zero test, p-series test, Ratio Test & Root Test. Leibnitz's Rule for Alternating Series, Power Series, Range Convergence, Uniform Convergence.
8. Matrik Algebra: Elementary row & column operations on matrices. Inverse by Elementary Transformation. Definition of Range of matrix, normal matrix & its rank. Consistency of simultaneous Linear Equations, Solution of Systems Equations, Eigen Values & Eigen Vectors. Linearly Dependent & independent Vectors in R3.
9. Differential Equations And Modeling: Modeling of Engineering System Leading of First Order, First Degree differential equations, solution of Linear & Exact differential equations. Applications of these equations to engineering problem Including Orthogonal Trajectories in Cartesian and polar co-ordinates. |
| Reference Books : |
| Erwin Kreyszig |
Advanced Engineering Mathematics (8th Edition) Wiley Eastern Ltd., New Delhi |
| Dr. K.R. Kachot |
Higher Engineering Mathematics, vol - I Mahajan Publishers, Ahmedabad |
| Dr. Tuptiben A. Desai |
Higher Engineering Mathematics Atul Prakashan,
Ahmedabad |
| Dr. B.S. Grewal |
Hisgher Engineering Mathematics Khanna Publishers, New Delhi |
| Dr. B.S. Grewal |
Elementary Engineering Mathematics Khanna Publishers, New Delhi |
| N.P. Bali, Ahsok Saxena & Iyengar |
A Text book on engineering Mathematics Laxmi
Publication (P) Ltd., New Delhi |
| H.K. Dass |
Advanced Engineering Mathematics S. Chand & Co. (Pvt.) Ltd., New Delhi |
| G.V. Kumbhojkar |
Engineering Mathematics - Vol I, II, III, IV C. Hamnadas
& Co. Bombay |
|
GUJART UNIVERSITY
CN 102 ELEMENTS OF CIVIL ENGINEERING
(CIVIL, MECH, AUTO, CHEM, RUBBER, PLASTIC, ENV) |
| Subject |
Code |
Teaching
Scheme |
Examination
Scheme |
| Theory |
Lab / Pract |
Exam |
Theory Paper |
Theory Marks |
Pract/
Oral |
TW |
Total |
| Elements of Civil Engg. |
CN 102 |
02 |
02 |
Sessional |
1.5 Hrs |
50 |
- |
50 |
200 |
| University |
3 Hrs |
100 |
|
| Course Content : |
Introduction of Civil Engg.
Scope and functions
Elementary Building Construction:
Requriements for different buildings, residential, commercial, industrial, public buildings etc. Urban and rural buildings, use of local materials. Type of loads on structures.
Planning: elementary principles and basic requirements of a building planning, layout of industrial building.
Construction of building: Load bearing and framed structures: Introduction of building components, foundation of wall & RCC columns, need of machine foundations, superstructures, brick work for walls, RCC floors, types of flooring, types of roofs, roof trusses.
Environmental Studies:
1. Ecology and biosphere, Ecosystem - components, interplay:
Eltonian pyramid; Ecological balance; Human life style and various activities interfering with ecological balance; long term human welfare and ecological balance.
2. Renewable and non-renewable sources of energy:
Importance and limitations, future projections. 3. Introduction to global environmental problems - Acid rain, green house effect, depletion of ozone layer, human predicament.
Surveying:
1. Introduction: Surveying and leveling, types of surveys, fundamental principles of surveying.
2. Classification of surveys and surveying methods; common surveying instruments and their components.
3. Linear measurements: Chains, tapes, conventional symbols; Instuments used in chaining; Methods
Ranging; Chains, tapes, conventional symbols; Instruments used in chaining; Methods; Ranging; Obstacles; Accuracies, introduction to errors, corrections.
4. Direction and bearing: Types and uses of compass, meridians, bearing angles - WCB, RB, Declinations and dip of needle; Local attractions; Computation of angles.
5. Elevation measurements; Definitions, leveling instruments, various types and uses, temporary adjustment; methods of leveling, recording and deducing, contours; characteristics and applications; areas and volumes; planimeter.
Term Work:
Term work shall be based on the above mentioned course content. |
Project Work:
1. Chain and Compass Survey Project.
2. Contouring and Profile Leveling Survey Project |
| Reference Books : |
1. Surveying Vol. I by B.C. Punamia
2. Building construction by B.C. Punamia
3. Surveying Vol. I by K.R. Arora
4. Building construction by Sushilkumar
5. Surveying & leveling by N.N. Basak |
GUJART UNIVERSITY
CN 103 ENGINEERING MECHANICS
(CIVIL, MECH, AUTO, CHEM, RUBBER, PLASTIC, ENV) |
| Subject |
Code |
Teaching
Scheme |
Examination
Scheme |
| Theory |
Lab / Pract |
Exam |
Theory Paper |
Theory Marks |
Pract/
Oral |
TW |
Total |
| Engineering Mechanics |
CN 103 |
02 |
01 |
Sessional |
1.5 Hrs |
50 |
- |
25 |
175 |
| University |
3 Hrs |
100 |
|
| Course Content : |
1. Introduction:
Scalar and Vector quantities, composition and resolution of vectors, definitions and units of space, time, matter and force, C.G.S and F.P.S. systems, the science of mechanics.
2. Statics:
Principles of statics, rigid body, support reactions, types of supports-fixed, hinged and roller, free body diagrams, composition and resolution of forces, moment of a force. Coplanar, concurrent and non-current, parallel and non-parallel forces, couples and their properties, combination of coplanar couples and forces, distributed forces. Analytical and graphical conditions of equilibrium for coplanar force systems, simple cases of concurrent forces in space, concept of statically determinate and indeterminate problems. Plane frame-simplifying assumptions used in the analysis of frames. Perfect, imperfect and redundant frames, analysis of frames, method of joints, graphical and analytical method of sections, method of substitution.
3. Centre of Gravity and Moment of Inertia:
Centre of gravity of lines, plane areas, volumes and bodies, Pappus theorems, moments of inertia of areas, polar moment of inertia, radius of gyration, parallel axes theorem, moment of inertia of bodies.
4. Friction:
Theory of friction, static and sliding friction, laws of friction, angle and coefficient of friction, function of friction in nature and engineering, wedges, belt and rope friction, screw friction.
5. Kinematics:
Motion of a practice, speed, velocity, acceleration, motion-uniform and variable Velocity and acceleration, motion-time curves, relative velocity, circular motion, constant and variable angular acceleration, relation between linear and angular acceleration, simple harmonic motion.
6. Kinetics:
Mass, inertia, Newton's low of motion, force, absolute and derived units, gravitational force, engineer's units, constant and variable forces, motion along inclined planes, moment and impulse, work, enery-kinetic and potential, observation of enery, impact, torque, angular acceleration, energy of rotating bodies, flywheel and its function, angular momentum, plane motion of rigid bodies, instantaneous centre, De Alembert's principle.
7. Simple Machines:
Velocity ratio, mechanical advantage, efficiency, simple machines such as levers, inclined plane, pulley and pulley blocks, wheel and axle, differential pulley blocks, worm and compound crew jacks etc reversibility of machine. |
| 2. Statics: Principles of statics, particles, rigid body, coplanar, concurrent and non-concurrent parallel and non-parallel forces, composition and resolution of forces, moment, couples and their properties, combination of coplanar couples and forces, equilibrant, equilibrium, free body diagrams, analytical and graphical conditions of equilibrium for coplanar force systems. |
| Term Work: Term work shall be based on the above mentioned course content. |
| Reference Books : |
1. Engineering Mechanics (Statics) By Beer and Johnston
2. Engineering Mechanics (Dynamics) By Beer and Johnston
3. Engineering Mechanics Vol I By Meriam J.L.
4. Engineering Mechanics Vol II By Meriam J.L.
5. Applied Mechanics By S. B. Junnarkar and H. J. Shah |
GUJART UNIVERSITY
CN 104 STRENGTH OF MATERIALS
(CIVIL, MECH, AUTO, CHEM, RUBBER, PLASTIC, ENV) |
| Subject |
Code |
Teaching
Scheme |
Examination
Scheme |
| Theory |
Lab / Pract |
Exam |
Theory Paper |
Theory Marks |
Pract/
Oral |
TW |
Total |
| Strength of Materials |
CN 104 |
02 |
01 |
Sessional |
1.5 Hrs |
50 |
- |
25 |
175 |
| University |
3 Hrs |
100 |
|
| Course Content : |
1. Strength and Elasticity:
Stresses: Axial, normal in-plane, tensile, compressive, shear, flexural, uniform, non-uniform, simple shear, complementary shear. Strain: Linear, shear, transverse, Poission's ration.
Elasticity: Elastic, homogeneous, isotropic, orthotropic material; plastic state, limits of elasticity and proportionality, yield limit, ultimate strength, proof stress, factor of safety, working stress, load factor.
2. Mechanical Properties of Materials: Metals:
Ductility, brittleness, malleability, behavior of ferrous and non-ferrous metals in tension & compression, shear and bending tests, standard test pieces, influence of various parameters on test results, true and nominal stress, modes of fracture, characteristics of stress-strain curves, strain hardening hardness : different methods of measurement, Izod and Charpy impact test. Fatigue strength, endurance limit, creep of metals. Co-relation between different mechanical properties, effect of temperature, testing machines and special features, different types of extensometers and compresso-meters, measurement of strain by electrical resistance strain gauges. Timber: tests and strength parallel and across the grains.
3. Blending moment and shear force:
Bending moment and shear force diagrams in statically determinate beams including cantilevers subjected to concentrated, uniformly distributed and varying loads and in plane moment loading, B. M. and S. F. diagrams by analytical and graphical methods, relation between bending moment, shear force and rate of loading, points of contra-flexure.
4. Stresses in beams:
Theory of simple bending, bending stresses and their distribution, moment of resistance, modulus of section, built-up and composite beam sections, beams of uniform strength, distribution of shear stress in different sections.
5. Torsion:
Torsion of circular, solid and hollow section shafts, shear stress and strain due to torsion, angle of twist, torsional moment of resistance, power transmitted by a shaft, keys and couplings, combined bending and torsion, close coiled helical springs.
6. Principal Stresses and Strains:
Compound stresses, analysis of principal planes and principal stresses, Mohr's circle of stress, principal strains, angle of obliquity of resultant stress, principal stresses in beams, principal stresses in shafts subjected to bending and torsion-with and without axial stress. |
| Term Work: Term work shall be based on the above mentioned course content. |
| Reference Books : |
1. Mechanics of Structure Vol I by S. B. Junnarkar & H. J. Shah
2. Mechanics of Materials By E. P. Popov
3. Strength of Materials By G. H. Ryder
4. Mechanics of Materials By Timoshenko and Gere
5. Mechanics of Materials By Beer and Johnston. |
GUJART UNIVERSITY
CN 105 MATERIAL SCIENCE
(CIVIL, MECH, AUTO, CHEM, RUBBER, PLASTIC, ENV) |
| Subject |
Code |
Teaching
Scheme |
Examination
Scheme |
| Theory |
Lab / Pract |
Exam |
Theory Paper |
Theory Marks |
Pract/
Oral |
TW |
Total |
| MATERIAL SCIENCE |
CN 105 |
02 |
- |
Sessional |
1.5 Hrs |
50 |
- |
- |
175 |
| University |
3 Hrs |
100 |
|
| Course Content : |
1. Introduction:
Importance of the subject, engineering requirements of materials, important properties of engineering materials, types.
2. Crystal Geometry:
Atoms and atomic coordination, atomic structure, bonds in solids, crystal structure, space lattices, unit cell, crystal systems, atomic packing, co-ordination nos., crystal structures for metallic elements, crystal directions and planes, miller indices, inter-planer spacing, Bragg's law, X-ray diffraction, ordered and disordered structures, stacking sequences and faults.
3. Crystal Imperfections:
Types, Frank - Reed source, dislocation, geometry and effect of dislocations. 4. Conducting Materials:
Resistivity and conductivity, good conductors, semiconductors, insulators, dielectrics, Ferro electricity, piezo electricity, superconductivity.
5. Magnetic Materials:
Magnetic properties, classification of magnetic materials, magnetostriction, ferromagnetism, soft and hard magnetic materials.
6. Ceramic Materials:
Introduction, classification, properties, ceramic phases, ceramic crystals, mechanical behavior of ceramics, various materials.
7. Metals:
Ferrous metals - types, non-ferrous metals, alloys, composition, properties and uses of metals and alloys.
8. Concrete:
Introduction, ingredients of concrete; Cement Types, test; Aggregates; Water; Concrete mixes and reinforced concrete.
9. Timber:
Introduction, structure and properties, seasoning, defects, processed wood like plywood, block boards etc.
10. Glasses:
Introduction, classification, structure, properties, strengthening of glass diversification, toughening, stress relieving, chemical strengthening.
11. Organic Materials:
Polymerizations; Polymer structures; Plastics; Synthetics resins; Elastomers and rubbers; Protective Coatings.
12. Composites:
Introduction, material combination, classification, structure, reinforced materials, high stiffness composites, agro and industry waste based composites.
13. Performance of Material In Service:
Service requirements; Fracture and fatigue, high temperature failures, erosion, IS specifications of materials shall be referred to wherever relevant.
14. Corrosion:
Types, factors, mechanism and control.
15. Miscellaneous Engineering Materials:
Introduction to HDPE, LDPE, thermocol, foam, resins, Teflon, PUF, glass wool, fiber glass, acrylic, silicon chips, superconducting materials, optical fibers, Freon, magnetic tapes, solar cells, neoprene, polyurethane, polyester fibers, high tensile steel, etc., general and specific applications.
Term Work:
Nil
Fields Visit:
Field visits based on course content are suggested |
| Reference Books : |
1. Element of material science by Van Vlack
2. The structure and properties of material Vol. I, II, III, IV by wolff.
3. Material science and processes - Zha & Zha
4. Material science and processes - R. B. Gupta
5. Material science and processes - Narula and Gupta
6. Material science and processes - Hajra Chaudhary |
GUJART UNIVERSITY
CN 106 ENGINEERING GRAPHICS
(CIVIL, MECH, AUTO, CHEM, RUBBER, PLASTIC, ENV) |
| Subject |
Code |
Teaching
Scheme |
Examination
Scheme |
| Theory |
Lab / Pract |
Exam |
Theory Paper |
Theory Marks |
Pract/
Oral |
TW |
Total |
| Engineering Graphics |
CN 106 |
03 |
04 |
Sessional |
2 Hrs |
50 |
- |
50 |
200 |
| University |
4 Hrs |
100 |
|
| Course Content : |
PART I : PLANE GEOMETRY AND MACHINE PARTS:
1. Introduction to Engineering Graphics:
Principles of projection lines and dimensioning. B.I.S. code of practice (SP 46) Scale, representative fraction, plane scale, diagonal scale, Vernier scale and scale of chords.
2. Engineering Curves:
Classification of engineering curves. Construction of conics, cycloidal curves, involute and spiral.
3. Loci of Points:
Simple mechanism like slider crank mechanism four bar chain mechanism etc.
4. Fastening and Connecting Methods:
Screw threads, bolts, nut, stud, locking devices, simple riveted and welded joints, pipe fitting, couplings, cotter joints, pin joints. Electrical, electronics, chemical and pipe drawing, Basic notation and symbols for simple flow diagram.
PART II: SOLID GEOMETRY:
1. Introduction to Projection of Point, Line and Plane: Projection of line inclined to both planes and simple cases. True length of straight line and its inclination with reference planes (traces are not included). Projections of perpendicular and oblique planes.
2. Introduction to Projection of Solids, Section of Solids and Interpenetration of Solids: Classification of solids. Projection of right and regular solids with their axis inclined to both planes. Projection of sphere Section of pyramid, cone, prism and cylinder. Method of determining line of intersection and curve of intersection. Intersection of prism-prism, cone-cylinder, cylinder-cylinder, cylinder-cone, cylinder-prism.
3. Development of Surfaces: Parallel line development, radial line development. Development of sphere by zone method and Lune method.
PART III: ORTHOGRAPHICS PROJECTIONS:
1. Orthographic Projection: Conversion of pictorial views into orthographic views, type of section(full half, offset, broken, removed, revolved) Section views, orthographic reading, missing views and missing line problems.
2. Isometric View: Conversion of orthographic views into isometric views.
3. Introduction to Computer Aided Drafting: Advantages of CAD, elements of CAD, components of computer, input and output devices, types of software, basic functions, drafting software.
PART IV: CIVIL ENGINEERING DRAWIING:
1. Abbreviation and symbols:
1. Sings and symbols for Civil Engg. Materials
2. Signs and symbols for doors and windows
3. Signs and symbols for surveying
4. Signs and symbols for water supply and sanitary engg
5. Sings and symbols for electrification
2. Foundations:
1. Spread footing for 20 cm thick brick wall
2. Spread footing for 30 cm thick brick wall
3. Spread footing for 40 cm thick brick wall
4. RCC column footing
5. Grillage foundation
6. Simple machine foundation
3. Floors: (1) Mosaic tiles floor (2) Terrazzo floor (3) Timber floor
4. Section through RCC lintel with Chhajja
5. Typical wall section through door on GF & window on FF
6. Roofs : (1) Lean to roof (2) king post truss (3) Queen post truss
7. Plan elevation and section of a residential building
8. Foundation Plan of a residential building
9. Electric wiring diagram of a residential building |
Term Work:
Term work shall be based on the above mentioned course content.
Field Visit:
Field visits based on course content are suggested. |
| Reference Books : |
1. Engg. Drawing Vol. I & II P.J. Shah
2. Engg. Drawing N. D. Bhatt
3. Civil Engineering Drawing Gurucharansingh
4. Civil Engineering Drawing Malik and Meo
5. Machine Drawing N. D. Bhatt
6. Eng. Drawing Vol - I & II by R. K. Dhawan |
GUJART UNIVERSITY
CN 107 ELEMENTS OF MECHANICAL ENGINEERING
(CIVIL, MECH, AUTO, CHEM, RUBBER, PLASTIC, ENV) |
| Subject |
Code |
Teaching
Scheme |
Examination
Scheme |
| Theory |
Lab / Pract |
Exam |
Theory Paper |
Theory Marks |
Pract/
Oral |
TW |
Total |
| Engineering Graphics |
CN 107 |
02 |
01 |
Sessional |
1.5 Hrs |
50 |
- |
25 |
175 |
| University |
3 Hrs |
100 |
|
| Course Content : |
1. Introduction:
Prime movers, Sources of energy, Types of prime movers, Force and mass, Pressure, Work, Power, Energy, Heat, Temperature, Units of heats, Specific heat capacity, Interchange of heat, Change of state, Mechanical equivalent of heat, Internal energy, Enthalpy, Efficiency.
2. Fuels and Combustion:
Introduction, Classification, Solid fuels, Gaseous fuels, Combustion, Calorific values.
3. Properties of gases:
Gas laws, Boyle's law, Charle's law, Combined gas law, Gas constant, Non flow process, Constant volume process, Constant pressure process, Internal energy, Relation between Cp and Cv, Enthalpy, Isothermal process, Poly-tropic process, Adiabatic process.
4. Properties of Steam:
Introduction, Steam formation, enthalpy, Specific volume of steam, Steam tables, Internal energy, Non-flow process, Throttling, Measurement of dryness fraction, Throttling calorimeter, Separating calorimeter, Combined calorimeter.
5. Heat Engines:
Thermal prime movers, elementary heat engines, Sources of heat, Working substances, Converting machines, Sink of heat, Classification of heat engines, Heat engine cycles, Carnot cycle, Carnot cycle with vapour, Rankine cycle, Ottocycle, Diesel cycle.
6. Steam Boilers:
Introduction, Classification, Simple vertical boiler, Vertical multi-tabular boiler, Cochran Type, Lancashire boiler, Cornish boiler, Locomotive boiler, Marine boiler (Scotch Type), Babcock and Wilcox boiler, High pressure boilers, Boiler details, Boiler performance. Functioning of different mountings and accessories.
7. Internal Combustion Engines:
Introduction, Classification, Engine details, otto four-stroke cycle, diesel-four-stroke cycle, Difference between otto cycle and Diesel cycle, Two-stroke cycle, Difference between two-stroke and four-stroke cycle, indicated power (ip), Efficiencies.
8. Speed Control:
Introduction, Governors, Steam engine governing, I.C. Engine governing, Fly wheel 3, Pumps: Introduction, Reciprocating pumps, reciprocating pump types, Reciprocating pump operating, Bucket pump, Air chamber, Centrifugal pumps, Types of centrifugal pumps, Priming, Rotary pumps.
9. Air Compressors:
Introduction, Reciprocating Compressors, Operating of a compressor, Work for compression, Power required, reciprocating compressor efficiency, Multistage reciprocating compressors, Rotary compressors.
10. Refrigeration & Air Conditioning:
Introduction, Refrigerant, Types of refrigerators, Vapour compression refrigerators, Window air conditioners.
11. Couplings, Clutches and Brakes:
Introduction, Couplings, Clutches, Brakes, Types of brakes, Internal expanding shoe brake, Difference between a brake and a clutch.
12. Transmission of Motion and Power:
Introduction, Methods of drive, Power transmission elements, shafting, Belt-drive, Belting, Pulleys, Velocity ratio of pulleys, Power transmitted by a belt, Chain drive Friction drive, Gear drive, Spur gear, Helical gear, Spiral gear, Bevel gear, Worm gear, Rack and pinion, Velocity ration of toothed gear, Trains of wheels, Power transmitted by gearing, Bearing-classification, Bush bearing, Ball & Rollar bearings.
Term Work:
Term work shall be based on the above mentioned course content. |
| Reference Books : |
1. Elements of Mechanical Engineering - Prof. P. S. Desai & Prof. S. B. Sons
2. Elements of Mechanical Engineering Prot. N. M. Bhatt & Prof. J. R. Mehta |
GUJART UNIVERSITY
CN 108 ELEMENTS OF ELECTRICAL ENGINEERING
(CIVIL, MECH, AUTO, CHEM, RUBBER, PLASTIC, ENV) |
| Subject |
Code |
Teaching
Scheme |
Examination
Scheme |
| Theory |
Lab / Pract |
Exam |
Theory Paper |
Theory Marks |
Pract/
Oral |
TW |
Total |
| Engineering Graphics |
CN 108 |
02 |
01 |
Sessional |
1.5 Hrs |
50 |
25 |
25 |
200 |
| University |
3 Hrs |
100 |
|
| Course Content : |
1. D.C. Circuits: Effect Of Temperature Upon Resistance, Solutions Of Series, parallel in brief, start-delta combination of Resistances, KVL & KCL.
2. Electrostatics & Capacitance: Definitions of electrostatic, types of capacitors, series, parallel, combinations & related circuit calculations in brief charging & discharging of capacitor. Energy stored in capacitor.
3. Electromagnetic: Magnetic Circuit, Comparison between Electric and Magnetic Circuits, Series / Parallel Magnetic Circuit Calculations, Magnetic Hysteresis, Hysteresis and Eddy Current Loss, Magnetic Materials, Electromagnetic induction, Statically and Dynamically Induced E.M.F.S. in brief, Fleming's Right hand rule-Left hand rule, Coefficients of Self and Mutual Inductances, Coefficient of Coupling, Series/Parallel Combinations of Inductances, Rise and Decay of Current in Inductive Circuits, Force Experienced By Current Carrying Conductor Placed in Magnetic Field.
4. Single Phase A.C. Circuits: Generation of Alternating Voltages & currents, Their Equations, Definitions, R.M.S and Average Values, Vector Representation of Alternating Quantities, Addition and Subtraction of Vectors, Complex Algebra., Phasor Relations Between Voltage and Current in Each of Resistance, Inductance and Capacitance, A.C. Series and Parallel Circuits, Power and Power Factor, Methods of Circuit solution (Analytically & Vectorially), Resonance In Series and Parallel Circuits.
5. Polyphase Cirtuits: Generation of Polyphase Voltages, 3 Phase System, Phase Sequence, Inter Connection of 3 Phase, Voltage, Current and Power Relationships in Balanced Three Phase Circuits, Power Measurement in Single Phase and 3 Phase Circuits.
6. Batteries, Cables: Battery, life of batteries, charging & discharging of battery. Cables, 2, 21/2, 3 and 4 core armored & unarmored cables.
7. Electrical Wiring: Connectors & switches, system of wiring, domestic wiring installation, sub circuits in domestic wiring, simple control circuit in domestic installation, industrial electrification.
8. Illumination: Types of lamps, fixtures & reflectors, illumination schemes for domestic, industrial & commercial premises, Lumen requirements for different categories.
9. Safety & Protection: Safety, electric shock, first aid for electric shock other hazards of electrical laboratories & safety rules, use of millimeters, grounding, importance of grounding, equipment of grounding for safety. Circuit protection device, fuses, MCB, ELCB & relays. |
Term Work:
Shall be based on the above Syllabus. |
| Reference Books : |
1. Electrical Technology Vol. 1 By B. L. Theraja
2. Basic Electrical Engineering By V. N. Mittal
3. Electrical Estimating & costing by Surjitsingh (Dhanpat Rai & Co.) |
GUJART UNIVERSITY
CN 107 ELEMENTS OF MECHANICAL ENGINEERING
(CIVIL, MECH, AUTO, CHEM, RUBBER, PLASTIC, ENV) |
| Subject |
Code |
Teaching
Scheme |
Examination
Scheme |
| Theory |
Lab / Pract |
Exam |
Theory Paper |
Theory Marks |
Pract/
Oral |
TW |
Total |
| Modern Workshop Practices |
CN 109 |
- |
02 |
Sessional |
- |
- |
- |
50 |
50 |
| University |
- |
- |
|
| Course Content : |
(a) Instruction / Demonstration: Should be give for each of following shops / trade which include importance of the shop / trade in engineering. New materials available tools/equipments required indicating the use of each tool/equipment. Methods of processing any special machines, power required etc.
(01) Joining process
(02) Sheet metal work
(03) Plumbing (metallic & non metallic pipe fittings)
(04) Electro plating
(05) Metal cladding & painting
(06) Manufacture of plastic products
(07) Metal machining - Turning, drilling, grinding etc.
(08) Carpentry / Pattern making
(09) Fitting / Assembly practice
(10) Forging and hot working processes
(11) Moulding and casting processes |
| 2. Fuel and combustion: Introduction, Classifications, Solid fuel, Liquid fuel, Gases fuel, Combustion calorific values. |
| 3. Properties of gases: Gas law’s: Boil’s law, Charles law, Combined gas law, Gas constant, Non-flow process, Constant volume process, constant pressure process, Internal energy, Relations between Cp & CV, Enthalpy, Isothermal process, Poly Tropic process, Adiabatic process. |
| 4. Properties of steam: Introduction, Steam formation, Enthalpy, Specific volume of steam, Steam tables, Internal energy, Non-flow process, Throttling calorimeter, separating calorimeter and combined calorimeter. |
| 5. Heat engine: Thermal prime movers, Elementary of heat engine sources of heat, Working substance, Converting machines, sink of heat, Classification of heat engine, Heat engine cycles, Carnot cycle, Carnot cycle with vapour, Rankine cycle, Otto cycle, Diesel cycle. |
| 6. Steam Boilers: Introduction, Classification, Simple vertical boilder, Vertical multi tuber boilder, Cochran type, Lancashire boiler, Locomotive boiler, Marine Boiler (Scotch type), Babcock and Wilcock boiler, High Pressure boiler, Boiler :- Details, Performances, Functions of different Mounting and accessories. |
| 7. Internal combustion Engine: Introduction, Classification, Engine details, Otto four stroke cycle, Two stroke cycle, Different between two and four stroke cycle, Indicated Power Efficiency. |
| 8. Speed Control: Introduction, Governors, Steam engine governing, I. C. engine governing, Flywheel |
| 9. Pump: Introduction, Reciprocating pump-Types & Operations, Bucket Pump, Air Chamber, Centrifugal pump and type of centrifugal pump, Priming, Rotary pump. |
| 10. Air compressor: Introduction, Reciprocating compressor, Operation of Compressor, Work for compression, Power Required, Reciprocating compressor efficiency, Multi stage reciprocating compressor, Rotary compressor. |
| 11. Refrigeration and Air Conditioning: Introduction, Refrigerant, Types of refrigerators, Vapor compression refrigerators, Window air conditioners. |
12. Transmission of motion and Power: Introduction, Methods of drive, Power transmission Elements, Shafting, Belt, Drive, Belting, pulleys, Velocity ratio of pulleys, Power transmitted by a belt, Change drive, Friction drive, Gear drive, Spur gear, Helical gear, Spiral gear, Bevel gear, Worm gear, Rack and Pinion, Velocity ratio of toothead gear, train of wheels, Power transmission by earring, Bearing classification, Bush bearing, Ball and roller bearings.
(b) Exercise and Term work:
Each student is required to prepare simple exercises in following so as to have a feeling of how the jobs / parts are prepared and use of tools / equipments (Any Eight)
(1) Electroplating
(2) Painting of metal piece
(3) Sheet metal part
(4) Plumbing
(5) Arc Welding / Gas welding / welding
(6) Soldering / Brazing
(7) Drilling practice
(8) Fitting / assembly
(9) Carpentry practice
(10) Forging practice
Over and above these exercises each student is required to prepare a laboratory report on instruction demonstration and exercises prepared by him as a part of term work of (a) above. |
| Term Work: shall be based on the above mentioned course content. |
| Reference Books : |
| 1. Elements of Mechanical Engineering - Prof P. S. Desai & Prof. S. B. Soni, Atul Prakashan |
| 2. Elements of Mechanical Engineering - Prof. N. M. Bhatt & Prof. J. R. Mehta Mahajan Publishers. |
GUJART UNIVERSITY
B.E. - 1ST Year (E, EC, IC, IT, CE, & BM)
HT 108 Elements of Electrical Engineering |
| Subject |
Code |
Teaching
Scheme |
Examination
Scheme |
| Theory |
Lab / Pract |
Exam |
Theory Paper |
Theory Marks |
Pract/
Oral |
TW |
Total |
| Elements of Electrical Engineering |
HT 108 |
02 |
01 |
Sessional |
1.5 Hrs |
50 |
25 |
25 |
200 |
| University |
3 Hrs. |
100 |
|
| Course Content : |
| 1. D. C. Circuits:- Effect of Temperature Upon Resistance, Solutions of series, parallel in brief, star-delta combination of Resistances, KVL & KCL. |
| 2. Electrostatics & Capacitance: Definitions of Electrostatic, types of capacitors, series, parallel, combination & related circuit calculations in brief charging & discharging of capacitor. Energy stored in capacitor. |
| 3. Electromagnetic:- Magnetic Circuit, Comparison Between Electric And Magnetic Circuits, Series/Parallel Magnetic Circuit Calculations, Magnetic Hyteresis, Hysteresis and Eddy Current Loss, Magnetic Materials, Electromagnetic Induction, Statically and Dynamically Induced E.M.F.S in brief, Fleming's Right hand rule-left hand rule, Coefficients of Self And Mutual Inductances, Coefficient Of Coupling, Series/Parallel Combinations Of Inductances, Rise And Decay Of Current In Inductive Circuits, Force Experienced By Current Carrying Conductor Placed in Magnetic Field. |
| 4. Single Phase A. C. Circuit: Generation Of Alternating Voltages & Currents, Their Equations, Definitions, R. M. S. and Average Values, Vector Representation of Alternating Quantities, Addition And Subtraction of Vectors, Complex Algebra, Pharos Relations Between Voltage And Current In Each of Resistance, Inductance And Capacitance, A. C. Series And Parallel Circuits, Power and Power Factor, Methods of Circuit Solution (Analytically & Vectorially), Resonance In Series And Parallel Circuits. |
| 5. Polyphase circuits:- Generation of Polyphase Voltages, 3, Phase System, Phase Sequence, Inter Connection Of 3 Phases, Voltage, Current And Power Relationships In Balanced Three Phase Circuits, Power Measurement In Single Phase And 3 Phase Circuits. |
| 6. Batteries, Cables:- Battery, life of batteries, charging & discharging of battery, Cables, 2, 21/2, 3 and 4 core armored & unarmored cables. |
| 7. Electrical Wiring:- Connectors & Switches, system of wiring, domestic wiring installation, sub circuits in domestic wiring, simple control circuit in domestic installation, industrial electrification. |
| 8. Illuminations:- Types of lamps, fixlures & reflectors, illumination schemes for domestic, industrial & commercial premises, Lumen requirements for different categories. |
| 9. Safety & protection: Safety, electric shock, first aid for electric shock other hazards of electrical laboratories & safety rules, use of multimeters, grounding, importance of grounding, equipment of grounding for safety circuit protection devices, fuses, MCB, ELCB & relays. |
| Term Work: Shall be Based on the above Syllabus. |
| Reference Books : |
1. Electrical Technology Vol. 1 By B. L. Theraja
2. Basic Electrical Engineering By V. N. Mittal
3. Electrical Estimating & Costing by Surjitsingh (Dhanpat Rai & Co.) |
GUJART UNIVERSITY
CN 109 MODERN WORKSHOP PRACTICE
(CIVIL, MECH, AUTO, CHEM, RUBBER, PLASTIC, ENV) |
| Subject |
Code |
Teaching
Scheme |
Examination
Scheme |
| Theory |
Lab / Pract |
Exam |
Theory Paper |
Theory Marks |
Pract/
Oral |
TW |
Total |
| Modern Workshop Practices |
HT 109 |
- |
02 |
Sessional |
- |
- |
25 |
25 |
50 |
| University |
- |
- |
|
| COURSE CONTENT |
| (ELECTRICAL WORKSHOP - E, EC, IC BM) |
1. Construction, working and application of workshop tools.
2. Electrical and Electronics Symbols
3. Soldering Practice Basics
4. Wires and Cables, Their gauge and their rating.
5. Domestic Electrical Accessories.
6. Industrial Electrical Accessories
7. House wiring
8. Faults and Remedies in Domestic installation.
9. Use of Megger.
10. Electrical components construction, application & acceptance tests
11. Basic Electronics components, color codes, construction, application & acceptance test
12. Study of Insulators and Insulating materials
13. Application of C. R. O. for Measurements of Voltages, Frequency, Phase angle and for component testing.
14. Mini Project on P.C.B.
15. Electric Shocks artificial respiration.
16. Indian Electricity rules. |
| (COMPUTER WORKSHOP - CE & IT) |
1. Installation & Use of Single User Operating System
Note: Any Two Widely Used Operating Systems May Be Use As Examples. Hardware Requirements For Microsoft DOS And Windows Installation, MS-DOS Commands And Programming, Customizing And Configuring Windows. Configuring The Taskbar, The Start Menu, Using The Windows Interface To Create, Print, And Store A File Using Explorer, Managing Disk Resources And Utilities, Manage Long And Short Filenames In A Mixed Environment, Disk Defragmenter, Scan Disk, Running Applications, Installation Methods, Architecture And Memory.
2. Computer Hardware
Overview of computer parts Peripheral devices like printers, mouse, scanner etc.
3. Microsoft Word
Overview of Microsoft Word, Formatting Text and Documents, Headings, Footers and Footnotes, TABS, Tables and Sorting, Working with Graphics, Templates, Wizards and Sample Documents, Tools, Spell Check, Mail Merge.
4. Fundamentals of Worksheet Usage
Worksheet Fundamentals, Embedding, Enhancing And Modifying Charted Data, Formatting Worksheet Data, Producing List Type Information, Customization Of The User Interface For Optimal Performance, Data Organization, Data Analysis, Data Manipulation, Data Access, Querying External Database Form, Within The WorkSheet, Import And Export Of Data Integration With Other Applications.
5. Microsoft Access
Table generationQuerying databaseReport and form generation.
6. Microsoft Power Point
Overview of PowerPoint, Creating And Formatting Presentations, Working with Text, Working With Graphics.
7. Usage Of Internet
Getting Connected To Internet And Visit Of Popular Web Sites
8. Front Page HTML
HTML tags, Static Web page designing.
9. Adobe Photo Shop
Corel graphics |
Term Work:
The practical and Term work will be based on the topics covered in the syllabus. Minimum 10 experiments should be carried out. |
| Reference Books : |
1. Mastering Dos 6.2 by Robbins (BPB)
2. Mastering Windows-95 by Coward (BPB)
3. The Compact Guide To Microsoft Office Professional by Ron Mansfield (BPB)
4. Books Online by Microsoft |
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