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ADAMAS UNIVERSITY
Course Curriculum for 1st Year Undergraduate (B.Tech) Program in
School of Engineering & Technology
ADAMAS UNIVERSITY
SCHOOL OF ENGINEERING & TECHNOLOGY
UG PROGRAM: 1st Year B.Tech All Branches
SEMESTER I
S. No Type Course code Course Title L T P Contact
Hrs/wk Credits
1 Theory SMA41101 Mathematics-I 3 1 0 4 4.0
2 Theory SPH41109 Physics – I 3 0 0 3 3.0
3 Theory ECS41101 Programming and Data
Structure 3 0 0 3 3.0
4 Theory HEN41117 HSS –I 3 0 0 3 3.0
5 Theory HEN41119 HSS –II 3 0 0 3 3.0
6 Practical SPH41209 Physics – I Lab 0 0 3 3 2.0
7 Practical ECS41201 Data Structure Lab 0 0 3 3 2.0
8 Practical ECE41201 Engineering Drawing and
CAD 1 0 3 4 3.0
Total 16 1 9 26 23
ADAMAS UNIVERSITY
SCHOOL OF ENGINEERING & TECHNOLOGY
UG PROGRAM: 1st Year B.Tech All Branches
SEMESTER II
S. No Type Course code Course Title L T P Contact
Hrs/wk Credits
1 Theory SMA41102 Mathematics– II 3 1 0 4 4.0
2 Theory SPH41108 Physics - II 3 0 0 3 3.0
3 Theory SCY41106 Chemistry 3 0 0 3 3.0
4 Theory EEE41102 Electrical Technology 3 0 0 3 3.0
5 Theory SBT41108 Life Sciences 3 0 0 3 3.0
6 Theory EME41104 Engineering Mechanics 3 0 0 3 3.0
7 Practical SCY41206 Chemistry Lab 0 0 3 3 2.0
8 Practical EEE41202 Electrical Technology Lab 0 0 3 3 2.0
9 Practical EME41204 Engineering Workshop 0 0 3 3 2.0
Total 18 1 9 28 25
Total Credit (Second Year): 48
ADAMAS UNIVERSITY SCHOOL OF ENGINEERING & TECHNOLOGY
UG PROGRAM: B. Tech in Civil Engineering SEMESTER III
S. No
Type Course code
Course Title L T P Contact Hrs/wk
Credits
1. Theory SMA42101 Transform Calculus 3 1 0 4 4
2. Theory ECE42101 Fluid Mechanics & Hydraulics 3 0 0 3 3
3. Theory EME42103 Solid Mechanics 3 0 0 3 3
4. Theory ECE42105 Surveying-I 3 0 0 3 3
5. Theory HEN42111 HSS-III 3 0 0 3 3
6. Compulsory
Theory ECE42107
Non Credit Course –III ( Introduction to Civil
Engineering) 3 0 0
3
0
7. Practical ECE42201 Fluid Mechanics Lab 0 0 3 3 2
8. Practical ECE42203 Solid Mechanics Lab -I 0 0 3 3 2
9. Practical ECE42205 Surveying Practice 0 0 3 3 2
TOTAL 18 1 9 29 22
ADAMAS UNIVERSITY SCHOOL OF ENGINEERING & TECHNOLOGY
UG PROGRAM: B. Tech in Civil Engineering SEMESTER - IV
SL. No
Type Course code
Course Title L T P Contact Hrs/wk
Credits
1. Theory SMA42102 Numerical Techniques 3 1 0 4 4
2. Theory ECE42102 Structural Analysis -I 3 1 0 4 4
3. Theory ECE42104 Civil Engineering Materials 3 0 0 3 3
4. Theory ECE42106 Soil Mechanics -I 3 0 0 4 4
5. Theory ECE42108 Surveying - I 3 0 0 3 3
6. Practical ECE42102 Estimation & Valuation 0 0 3 3 2
7. Practical ECE42104 Soil Mechanics - II 0 0 3 3 2
8. Practical ECE42106 Civil Engineering Materials Lab 0 0 3 3 2
9. Sessional ECE42108 Surveying practice 0 0 3 3 2
TOTAL 15 3 12 30 26
Total Credit (Second Year): 53
ADAMAS UNIVERSITY SCHOOL OF ENGINEERING & TECHNOLOGY
UG PROGRAM: B. Tech in Civil Engineering SEMESTER V
S. No
Type Course code
Course Title L T P Contact Hrs/wk
Credits
1. Theory ECE43101 Design of RC Structure-I 3 1 0 4 4
2. Theory ECE43103 Structural Analysis -II 3 1 0 4 4
3. Theory ECE43105 Soil Mechanics-II 3 0 0 3 3
4. Theory ECE43107 Transportation Engineering -I 3 0 0 3 3
5. Theory HEC43181 HSS –IV 3 0 0 3 3
6. Practical ECE43201 Soil Mechanics Lab –II 0 0 3 3 2
7. Practical ECE43203
Transportation Engineering Lab-I
0 0 3 3
2
8. Practical ECE43205 CAD 0 0 3 3 2
9. Sessional ECE43207 Detailing of RC Structure 0 0 3 3 2
TOTAL 15 2 12 29 25
ADAMAS UNIVERSITY SCHOOL OF ENGINEERING & TECHNOLOGY
UG PROGRAM: B. Tech in Civil Engineering SEMESTER VI
S. No
Type Course code
Course Title L T P Contact Hrs/wk
Credits
1. Theory ECE43102 Design of Steel Structure 3 1 0 4 4
2. Theory ECE43104 Structural Analysis -III 3 1 0 4 4
3. Theory ECE43106 Water Resources Engineering -I 3 0 0 3 3
4. Theory ECE43108 Transportation Engineering - II 3 0 0 3 3
5. Theory ECE43110 Engineering Geology 3 0 0 3 3
6. Practical
ECE43202 Transportation Engineering Lab-
II 0 0 3
3 2
7. Practical ECE43204 Engineering Geology Lab 0 0 3 3 2
8. Sessional ECE43206 Detailing of Steel Structure 0 0 3 3 2
9. ECE43302 Seminar 0 0 3 3 2
TOTAL 15 2 12 29 28
Elective –I
1. Pre-stressed Concrete.
2. Design of Bridge Structure.
3. Waste Management.
ADAMAS UNIVERSITY SCHOOL OF ENGINEERING & TECHNOLOGY
UG PROGRAM: B. Tech in Civil Engineering TRI-SEMESTER VII
S. No
Type Course code
Course Title L T P Contact Hrs/wk
Credits
1. Theory ECE44101 Environmental Engineering-I 3 0 0 3 3
2. Theory ECE44103 Water Resources Engineering-II 3 0 0 3 3
3. Theory ECE44105 HSS-V 3 0 0 3 3
4. Theory ECE44107 Management 3 0 0 3 3
5. Theory ECE44109 Elective-I 3 0 0 3 3
6. Practical ECE44201 Environmental Engineering Lab 0 0 3 3 2
7. Sessional ECE44401 Project - I 0 0 3 3 2
8. ECE44601 Internship/Vocational Training 0 0 0 0 2
TOTAL 15 0 6 21 21
ADAMAS UNIVERSITY SCHOOL OF ENGINEERING & TECHNOLOGY
UG PROGRAM: B. Tech in Civil Engineering SEMESTER -VIII
S. No
Type Course code
Course Title L T P Contact Hrs/wk
Credits
1. Theory ECE44102 Environmental Engineering -II 3 0 0 3 3
2. Theory ECE44104 Hydraulics Structure 3 0 0 3 3
3. Theory ECE44106 Elective –II 3 0 0 3 3
Theory ECE44108 Elective –III 3 0 0 3 3
4. Theory
ECE44110 Construction Planning and
Management 3 0 0 3 3
5. Sessional ECE44402 Project-II 0 0 3 3 2
6. Sessional ECE44302 Seminar 0 0 3 2 2
7. ECE44502 Grand Viva 0 0 0 0 2
TOTAL 15 0 6 20 21
Elective –II Elective –III
1. Earthquake Engineering. 1. Advance RC design
2. Design of Tall building. 2. Elasticity and Plasticity.
3. Foundation Engineering. 3. Composite Structure.
4. Advance Structural Analysis.
Total Credit (Forth Year): 42
ADAMAS UNIVERSITY
Bachelor of Technology
1ST
YEAR SEMESTER – I
Module 1: Differential Calculus: Successive differentiation, Leibnitz’s Theorem,
Rolle’s theorem, Mean value theorems, Taylor’s and Maclaurin’s theorems with remainders,
Expansions, indeterminate forms, infinite Series, curve tracing, functions of several variables, partial
Differentiation, total differentiation, Euler’s theorem and generalization, maxima and minima of
functions of several variables (two and three variables), Lagrange’s method of multipliers, change of
variables, Jacobean’s, asymptote, curvature.
Module 2: Ordinary differential equations of first order: Formation of differential equations;
Separable equations; equations reducible to separable form; exact equations, integrating
factors, linear first order equations; Bernoulli’s equation; Orthogonal trajectories.
Module 3: Ordinary linear differential equations of higher order: Homogeneous linear equations of arbitrary order with constant coefficients, Non-
homogeneous linear equations with constant coefficients, Euler and Cauchy’s equations, Method of
variation of parameters, System of linear differential equations., modelling of electrical circuit.
Module4: Series solution of differential equation, power series method, Legendre’s equation and
Legendre’s polynomials, Bessel’s equation, Bessels function and its application.
Mathematics -I SMA41101 3-1-0 4 Credits
Text Books:
1 Erwyn Kreyszig : Advanced Engineering Mathematics, John Wiley and Sons
2 Higher Engineering Mathematics by B.V. Ramana, Tata McGraw-Hill.
3 B.S.Grewal : Higher Engineering Mathematics, Khanna Publications
4 C B Gupta, S R Singh, Mukesh Kumar: Engineering Mathematics, Mc Graw Hill Publication.
ADAMAS UNIVERSITY
Bachelor of Technology
1ST
YEAR SEMESTER – I
Module 1: Vector Analysis Axial and polar vectors, dot product and cross product, scalar triple product and vector triple product.
Scalar and vector fields --- gradient, divergence and curl, statement of divergence theorem,
statement of Stokes' theorem.
Module 2: Mechanics of a Particle
(a) Newton's laws of motion, principle of conservation of linear momentum, time and
path integral of force, conservative force field, concept of potential, conservation of
total energy, equation of motion of a system with variable mass.
(b) Rotational motion, angular velocity, angular acceleration, angular momentum,
torque, fundamental equation of rotational motion, principle of conservation of angular
momentum, radial and cross-radial acceleration.
Module 3: Dynamics of Rigid Bodies Moment of inertia and radius of gyration - their physical significance, theorems of
parallel and perpendicular axes, rotational kinetic energy, calculation of moment of
inertia for some simple symmetric systems. Physical significance of MI.
Module 4: Gravitation
Gravitational potential and intensity due to thin uniform spherical shell and solid
sphere of uniform density, escape velocity.
Module 5: Elasticity
Elastic moduli and their interrelations, torsion of a cylinder, bending moment,
cantilever, simply supported beam with concentrated load at the center, strain energy.
Module 6: Viscosity
Streamline and turbulent motion, Poiseuille's formula, critical velocity, Reynolds
number, Bernoulli's theorem, Stokes' law (statement only).
Module7: Surface Tension
Surface tension and surface energy, molecular theory, angle of contact, elevation and
depression of liquid columns in a capillary tube, excess pressure in a spherical bubble and
Physics-I SPH41109 3-0-0 3 Credits
spherical drop.
Module8: Simple Harmonic Motion
Differential equation and its solution, analytical treatment, Lissajous figures, natural,
damped and forced vibration, resonance, sharpness of resonance.
Module9: Kinetic Theory of Gases
Perfect gas, pressure exerted by it, Maxwell's law of distribution of molecular
velocities (statement only) - r.m.s, mean and most probable velocities, degrees of freedom,
principle of equipartition of energy - application in simple cases. Equation of state - defects
of ideal gas equation, van der Waals equation (qualitative study), and critical constants.
Module10: Thermodynamics
Basic concepts (equilibrium state, state function, exact and inexact differential),
internal energy as state function. First law of thermodynamics and its application. Isothermal
and adiabatic changes and their relations, indicator diagrams. Reversible and irreversible
processes, second law of thermodynamics, Carnot cycle and its efficiency, entropy and its
physical interpretation.
Module11: Thermal Conductivity
Steady state and variable state, thermal and thermometric conductivity, Fourier
equation for one-dimensional heat flow and its solution, cylindrical flow of heat.
Module12: Radiation
Nature of radiant heat, emissive and absorptive power, Kirchhoff's law, black body
radiation, Stefan's law, Newton's law of cooling, Planck's distribution law (only statement),
Wien's displacement law.
Module 13: Physical Optics
Light as an electromagnetic wave, full electromagnetic spectrum, properties of
electromagnetic waves, Huygens' principle, Interference of light, Young's experiment,
intensity distribution, conditions of interference, Diffraction of light, Fresnel and
Fraunhofer class, Fresnel's half-period zones, zone plate. Fraunhofer diffraction due to a
single slit and plane transmission grating (elementary theory). Polarization of light Different
states of polarization, Brewster's law.
ADAMAS UNIVERSITY
Bachelor of Technology
1ST
YEAR SEMESTER – I
Module 1: Basics of C Programming :Characters used in C, Identifiers, Keywords, Data type & sizes,
Constants &Variables, Various Operators used such as Arithmetic Operators, Relational & Logical
Operators, Increment & Decrement Operators, Assignment Operators, Conditional or Ternary
Operators, Bitwise Operators & Expressions; Standard Input & Output, formatted input scanf( ),
formatted output printf( ); Flow of Control, if-else, switch-case, Loop Control Statements, for loop,
while loop, do-while loop, nested loop, break, continue, goto, label and exit( ) function
Module 2: Functions and Pointers: Definition of Function, Declaration or Prototype of Function, Various
types of Functions, Call by Value, Call by Reference, Recursion, Tail Recursion, Definition of
Pointer, Declaration of Pointer, Operators used in Pointer, Pointer Arithmetic, Functions with Pointer
Module 3: Introduction to Data Structures: Basic Terminology, Elementary Data Organization, Algorithm,
Efficiency of an Algorithm, Time and Space Complexity, Asymptotic notations: Big-Oh, Time-Space
trade-off. Abstract Data Types (ADT)
Programming and Data
Structure ECS41101 3-0-0 3 Credits
Arrays and String: Definition, Single and Multidimensional Arrays, Representation of Arrays -
Row Major Order, and Column Major Order, Application of arrays – searching and sorting, Sparse
Matrices and their representations. Definition of a String, Declaration of a String, Initialization of a
String, Various String Handling Functions with example
Structures and Unions: Definition of a Structure, Declaration of a Structure & Structure Variable,
Initialization of a Structure, Operators used in Structure, Structure within Structures, Union,
Difference between a Structure and an Union
Files: Types of File, File Processing, Handling Characters, Handling Integers, Random File
Accessing, Errors During File Processing
Module 4: Stacks and Queues: ADT Stack, Array Implementation Multiple Stacks, Applications of Stacks –
Conversion from Infix to Postfix, Evaluation of Postfix Expressions, Prefix Notation, etc. ADT
queue, Linear Queue, Circular Queue, Priority Queue, Array Implementations of Queues,
Applications of Queues Operations on Queue: Create, Add, Delete, Full and Empty, Circular queues,
Array and linked implementation of queues in C, Dequeue and Priority Queue.
Module 5: Linked lists: Array Implementation and Dynamic Implementation of Singly Linked Lists, Doubly
Linked List, Circularly Linked List, Operations on a Linked List. Insertion, Deletion, Traversal,
Polynomial Representation and Addition, Generalized Linked List.
Trees: Basic terminology, Binary Trees, Binary Tree Representation: Array Representation and
Dynamic Representation, Complete Binary Tree, Algebraic Expressions, Extended Binary Trees,
Array and Linked Representation of Binary trees, Tree Traversal algorithms: Inorder, Pre-order and
Postorder, Threaded Binary trees, Traversing Threaded Binary trees, Huffman algorithm.
Module 6:
Graphs: Terminology, Sequential and linked Representations of Graphs: Adjacency Matrices,
Adjacency List, Adjacency Multi list, Graph Traversal : Depth First Search and Breadth First Search,
Connected Component, Spanning Trees, Minimum Cost Spanning Trees: Prims and Kruskal
algorithm. Transistive Closure and Shortest Path algorithm: Warshal Algorithm and Dijikstra
Algorithm, Introduction to Activity Networks.
Text Books:
1 ―The Complete Reference‖, 4th Edition by Herbert Schildt, Tata Mcgraw Hill Education
2 ―Data Structures Using C‖, 7th Edition by Aaron M. Tenenbaum, Yedidyah Langsam and Moshe
J. Augenstein, PHI Learning Private Limited, Delhi India
Reference Books:
1 ―The C Programming Language‖, 2nd
Edition, Brian W. Kernighan, Dennis M. Ritchie, PHI
2 ―Schaum's Outline of Programming with C‖, 2nd
Edition, Byron S. Gottfried, Mcgraw Hill
Education
3 ―Data Structures and Program Design in C‖, 2nd
Edition by Robert Kruse, C. L. Tondo, Bruce
Leung, Shashi Mogalla, Pearson Education
ADAMAS UNIVERSITY
Bachelor of Technology
1ST
YEAR SEMESTER – I
For the subject HSS-I (HEN41117) students have to choose from anyone of the offered courses
Level 2 A
Unit-I: Oral Skill I
Interactions in different situations- Formal dialogues- Group interactions
Unit-II: Oral Skill II
Inviting people to a programme- Apologizing and responding to apologies- Congratulations and
response-Showing appreciation- Expressing sympathy, regret or consolation-Asking for, granting
and refusing permission
Unit-III: Oral Skill III
Debates and Extempore
Unit-IV: Reading Skill
Newspaper Reading and Interpretation
Unit-V (Writing Skill I)
Importance of writing skills – Effective means of written communication –Report Writing –
Memo writing – Summary writing
Unit-VI (Writing Skill II)
Article, Paragraph, Applications, Emails and Drafts
Suggested Reading:
1. Spoken and Written Communication. Board of Editors. Orient Blackswan.
2. M. S Gupta. Current English Grammar and Usage. Prentice Hall India Learning Private
Limited; 2016.
3. P. C. Das. Spoken English and Functional Grammar.
Level 2 B
Unit-I
Short Stories— Sherlock Holmes: ―The Speckled Band‖
Unit-II
Poetry— Wilfred Owen: ―Strange Meeting‖; W H Auden: ―The Unknown Citizen‖
Unit-III
Drama— William Shakespeare: As You Like It
Unit-IV
Newspaper Reading and Interpretation
Unit-V (Writing Skill I)
Importance of writing skills – Effective means of written communication – Letter Writing –
Report Writing – Memo writing – Summary writing
Unit-VI (Writing Skill II)
Article, Paragraph, Report, Applications, Emails and Drafts
Suggested Reading:
1. Sir Arthur Conan Doyle: Sherlock Holmes and the Adventure of the Speckled Band. Lerner
Books.
2. W. H. Auden: Collected Poems, Vintage International.
3. The Poems of Wilfred Owen. Wordsworth Poetry Library
4. Spoken and Written Communication. Board of Editors. Orient Blackswan.
5. M. S Gupta. Current English Grammar and Usage. Prentice Hall India Learning Private
Limited; 2016.
6. William Shakespeare: As You Like It. Arden Edition
ADAMAS UNIVERSITY
Bachelor of Technology
1ST
YEAR SEMESTER – I
Module 1: An attempt to define and identify the contours of Ethics and its relation with Religion,
Aesthetics and Professional Education Human Values including basic five human values (against Satya
(Truth), Dharam (Righteous conduct), Prem (Love), Shanti (Peace), Ahinsa (Non-violence), Ethics &
Morality in Law, General-Lectures by distinguished persons on this subject on regular basis.
Fundamental Duties of citizen. Basic values of the Constitution: Democracy, Republicanism, Rule of law,
Constitutionalism and Respect for Minority Rights.
Module 2: Human Rights – Jurisprudence of human rights nature and definition, Universal protection of
human rights, Regional protection of human rights, National level protection of human rights, Human
Rights and vulnerable groups.
Module 3: Theory and Nature of Political Institutions
Concept of State / Nation
Organs of Government – Legislative, Executive and Judiciary
PROFESSIONAL ETHICS, FUNDAMENTAL
DUTIES AND LEGAL STUDIES (HSS – II) HEN41119 3-1-0 3credits
Separation of Powers – Parliamentary Sovereignty and Judicial Independence
Constitutional Framework of India.
Module 4: Nature and Sources of Law
Legislation – Process, delegated and subordinate legislation
Case law- Stare decises, precedents within the hierarchy of courts
Authoritative Sources, Custom, Law reform
Module 5: Historical Evolution of Indian Legal System
Ancient Indian Law, English Law in India
Administration of Justice in British India
Charter of 1861 and subsequent Charters
Establishment of High Courts and the Federal Courts
Drafting of the Indian Constitution
Ancient Indian Law in Modern Legal Framework
Module 6: Civil and Criminal Courts And Process
The Civil Court Structure, The Criminal Court Structure
The Civil Process, The Criminal process- Investigation and Prosecution
Module 7: Miscellaneous Laws
Growing importance of intellectual property rights and related laws in India
Industrial relations laws
An overview of the Law of Contract
Human resource and related laws
ADAMAS UNIVERSITY
Bachelor of Technology
1ST
YEAR SEMESTER – II
Module 1: Linear Algebra: Elementary row and column operations on a matrix; Rank of matrix ,
Normal form, Inverse of a matrix using elementary operations, Consistency and solutions of systems
of linear equations using elementary operations, Gauss Elimination method. Caley-
Hamillton theorem, eigen values and eigen vectors, Symmetric and skew-symmetric matrices,
orthogonal matrices, complex matrices, Hermitian and skew-Hermitian matrices, unitary matrices
and similarity of matrices. Unitary matrix, Normal matrix, Algebraic and geometric multiplicity,
Diagonalization, spectral theorem for Real symmetric matrices, Application of quadratic forms.
Module 2: Vector space and Linear transformations: Definition of vector space, subspaces, linear
combination, Linearly dependent and linearly independent vectors, Basis of vector space, Dimension,
Rank-Nullity theorem (statement and verification by examples), Definition of linear transformation,
types of linear transformations (Rotation, Reflection, Expansion, Contraction, Projection), Matrix of
Linear transformations, Change of basis and similarity.
Mathematics -II SMA41102 3-1-0 4 Credits
Module 3: Functions Of Complex Variables: Reorientation, Analytic function, Cauchy – Riemann
equation (Cartesian and Polar forms), Harmonic functions, conformal mappings, complex
integration, Cauchy’s theorem and integral formula, Singularities, Taylor’s and Laurent’s Series
theorem, evaluation of integrals using residues.
Module4: Partial Differential Equation: Introduction, classification, construction and geometrical
interpretation of first order partial differential equations (PDE), method of characteristic and general
solution of first order PDE, canonical form of first order PDE, equations solvable by direct
integration, Langrange’s method, solution of non-linear first order partial differential equation by
Charpit’s method, special types of first order PDE, solution satisfying given conditions, Jacobi’s
method.
ADAMAS UNIVERSITY
Bachelor of Technology
1ST
YEAR SEMESTER – II
Module 1. Electrostatics
Quantization of charge, Coulomb's law, field intensity and potential, example of point
charge, Gauss' theorem, simple applications, potential and field due to an electric dipole,
mechanical force on the surface of a charged conductor. Dielectric medium, polarization,
electric displacement. Capacitor, Parallel-plates and cylindrical, energy stored in parallel
plate capacitor.
Text Books:
1 Erwyn Kreyszig : Advanced Engineering Mathematics, John Wiley and Sons
2 Higher Engineering Mathematics by B.V. Ramana, Tata McGraw-Hill.
3 David C. Lay, Linear algebra and its application, (Latest edition), Pearson publication, New Delhi.
4 E. Kreyszig, Advanced engineering mathematics (Latest edition), John Wiley.
5 H. Anton, Elementary linear algebra with applications (Latest edition), John Wiley. 6 Erwyn Kreyszig : Advanced Engineering Mathematics, John Wiley and Sons
Physics-II SPH41108 3-0-0 3 Credits
Module 2. Steady Current
Network analysis: Kirchhoff’s laws, Thevenin and Norton's theorem, Wheatstone
bridge, potentiometer.
Module 3. Thermoelectricity
Seebeck, Peltier, and Thomson effects, laws of thermoelectricity, thermoelectric curve ---
neutral and inversion temperature, thermoelectric power.
Module 4. Magnetic effect of current
Biot-Savart law, Ampere's circuital law (statement only), magnetic field due to a straight
conductor, circular coil, solenoid, endless solenoid, Magnetic field due to a small current
loop, concept of magnetic dipole, introduction magnetic scalar and vector potential.
Module 5. Lorentz force
Force on a moving charge in simultaneous electric and magnetic fields, Cyclotron motion
and Cycloid motion (basic discussion only) force on a current carrying conductor in a
magnetic field.
Module 6. Magnetic materials
Intensity of magnetization, relation between B, H and M. Bar magnet, Magnetic field due to
a bar magnet (end on and broad side on positions), magnetic susceptibility, dia, para and
ferromagnetic materials, statement of Curie's law. Hysteresis in a ferromagnetic material,
hysteresis loss.
Module 7. Electromagnetic induction
Faraday’s law of induction, Lenz’s law, self and mutual inductances in simple cases,
energy stored in inductance.
Module 8. Transient currents
growth and decay of currents in L-R circuit; charging and discharging of capacitor in C-R
circuit.
Module 9. Alternating current
Mean and r.m.s. values of current and e.m.f with sinusoidal wave form; LR, CR and series
LCR circuits, reactance, impedance, phase-angle, power dissipation in AC circuit, power
factor, vector diagram, resonance in a series LCR circuit, Q-factor, principle of ideal
transformer.
Module 10. Diodes and Transistors
P-N junction diode, bridge rectifier, capacitance input filter, Zener diode, voltage
regulator, Transistors --- α and β and their interrelations; output characteristics in CE mode,
single stage CE amplifier --- approximate expressions of current and voltage gain
with the help of 'Load Line'.
Module 11. Digital Electronics
binary systems, binary numbers. Decimal to binary and reverse conversions, binary addition
and subtraction. Logic gates: OR, AND, NOT gates --- truth tables. Statement of de
Morgan's theorem, NOR and NAND universal gates.
Module 12. Special Theory of Relativity
Postulates of STR, formulae of (i) Length contraction; (ii) Time dilation; (iii) Velocity
addition; (iv) Mass variation, and (v) Mass-energy equivalence.
Module 13. Elementary quantum Physics
Planck's concept of blackbody radiation and radiation formula (statement only), qualitative
discussion of photo-electric effect and Compton effect in support of quantum theory, Raman
effect. Wave nature of material particles, wave-particle duality, wavelength of de Broglie
waves, Heisenberg uncertainty principle, and Schrödinger equation, particle in a one-
dimensional infinite well, energy eigenvalues, wave function and its probabilistic
interpretation. Bohr's theory of hydrogen spectra, concept of quantum number, Pauli
Exclusion Principle.
Module 14. Laser:
Principle of Laser action, Population Inversion, Einstein’s A and B coefficients, feedback of
energy in a resonator,3 level and 4 level systems, Helium-Neon and Semiconductor Lasers.
Application of Laser.
Module 15. Fibre Optics:
Optical fibre, core and cladding, total internal reflection, optical fibre as waveguide, step
index and graded index fibre, communication through optical fibres, energy loss, band width
and channel capacity for a typical system, attenuation and dispersion, splicing and couplers,
Fibre optic sensors.
Module 16. Superconductor :
Definition, Type I, Type II, Meissner effect, Josephson effect
ADAMAS UNIVERSITY
Bachelor of Technology
1ST
YEAR SEMESTER – II
Module 1: Thermodynamics: Thermodynamics of Chemical Processes: Review of 1
stlaw, Concept of entropy,
Chemical potential, Equilibrium conditions for closed systems, Phase and reaction equilibria,
Maxwell relations.
Module 2: Reaction Dynamics, Catalysis & Electrochemistry: Rate laws, 1
stOrder reaction & 2
ndorder
reaction, Arrhenius equation,Mechanism and Theories of reaction rates,Characteristics and Types of
Catalyst, Theories of Catalysis, Electrode potential, Redox reaction & Nernst Equation.
Module 3: Solid State and Molecular spectroscopy:.Homonuclear and Heteronuclear concepts, Non –
covalent interaction, Van der waals bonding, hydrogen bonding, Idea of spatial periodicity of lattice,
Unit cells, Bravias lattice, Atomic packing factor of SCC, BCC and FCC, Band theory, Conductors
Semiconductors and insulators. Basic concepts of spectroscopy, selection rule, fundamentals of IR,
UV-Vis, NMR spectroscopy
Module 4: Co-Ordination Chemistry:Transition elements, Warner’s co-ordination theory, Structure of Co-
ordination Compounds corresponding to Co-ordination number 2 to 6, Types of ligands, Isomerism
& its types viz. Geometrical, Optical, Ionization, linkage & Co-ordination isomerism, Theories of
bonding in Co-ordination compounds viz. crystal field theory and valance bond theory.
Module 5: Reactivity of Organic Molecules, Types of Reactions and Stereochemistry: Inductive effect,
Resonance, Hyper conjugation, Electromeric effect, Carbocation, carbanion & free radicals,
Substitution reactions, Elimination reactions, Addition reactions, & their Mechanisms. Introduction
to stereochemistry, stereochemical nomenclature & terminology (chiral carbons, allenes, biphenyls,
etc.) and nomenclature (R/S, E/Z, D/L, d/l). Identification of stereo chemical relationship
(enantiomers, diastereomers, epimers, etc.).
Chemistry SCY41106 3-0-0 3 Credits
Module 6:
Polymers& Fuel Chemistry:Polymerization, Mechanism of Addition polymerization, Classification
of plastics, Preparation properties & industrial applications of PTFE, PVC, Phenolic resin &
Polyester resin, Conducting polymers & Biopolymers. Solid Fuel: Coal, Classification of coal, Coal
analysis. Liquid fuel: Petroleum, classification of petroleum, Thermal cracking, Octane number,
Cetane number, Aviation Fuel Bio-diesel. Gaseous fuels: Natural gas, water gas, bio gas.
Text Books:
1 P. W. Atkins, Physical Chemistry, ELBS/Oxford, 7th Edition, 1995
2 G.W.Castellan, Physical Chemistry
3 D. A. McQuarrie and J.D. Simon, Physical Chemistry - a molecular approach, Viva Books Pvt.
Ltd. (1998)
4 P. C. Rakshit, Physical Chemistry, Sarat Book House (7thEdition)
5 Cotton, F A,Wikinson G. and Gaus, P L,Basic Inorganic Chemistry
6 J. D. Lee, Concise Inorganic Chemistry, 4th Edition, ELBS, 1991
7 I.L. Finar,Organic Chemistry,Vol – I & II, Pearson Education
8 Morrison & Boyd, Organic Chemistry
9 P. Sykes, Mechanism in Organic Chemistry, Orient Longman
10 Joel R. Fried, Polymer Science and Technology, Pearson Education (2nd
Edition)
11 S. Sarkar, Fuels and Combustion, Taylor & Francis (3rd
Edition), 2009
12 Kuriacose& Raja Ram ,Chemistry in Engineering and Technology, Vol.1 & 2 by, Tata McGraw
Hill & Co
ADAMAS UNIVERSITY
Bachelor of Technology
1ST
YEAR SEMESTER – II
Module 1: Introduction to Electrical Engineering
Sources of energy; General structure of electrical power systems; Steam power generation; Hydel
power generation; Gas and Nuclear power generation; Power Transmission and Distribution;
overhead lines; underground cables; Transformers; Basic Principle and operation
Module 2: DC Networks
Kirchoff’s laws; node voltage method; mesh current method; Delta-star and star-delta conversion;
Network theorems; Superposition principle; Thevenin’s theorem; Norton’s theorem
Module 3: AC Circuits
Definitions: average and effective values of Sinusoids; Solution of R,L,C series circuits;
Significance of j operator; complex representation of impedances; Phasor diagram; power factor,
power in complex notation; solution of parallel and series – parallel Circuits; Three phase EMF
generation; delta and Y – connections; line and phase quantities
Module 4: Basics of Semi-Conductors and PN Junction
Introduction; Carrier Concentrations- the Fermi Level; Electron and Hole Concentration at
Equilibrium; Temperature Dependence of Carrier Concentration; Drift and diffusion current; The
Hall Effect; Optical Absorption, Luminescence; PN Junction Diode in Equilibrium Conditions; PN
Junction Diode in Forward Biased and Reverse Biased Condition; Breakdown in PN Junction
Electrical Technology EEE41102 3-0-0 3 Credits
Diodes.
Module 5: Bipolar Junction Transistors
Introduction, Types: NPN and PNP; Current Components; Early Effect Ebber’s Moll Model;
Different Configurations of a Transistor and its Characteristics; Transistor as an Amplifier (CE, CB,
CC); Transistor as a Switch
Module 6: Field Effect Transistors
Introduction; JFET and MOSFET; Realization of digital logic circuit using MOSFET (AND, OR,
NOT etc.); Realization of switching circuits using MOSFET
Module 7: Electronics Instruments & Digital Electronics Fundamental:
Signal generator, Mustimeter, operation of CRO and its application. Number systems, Conversions and codes,
Logic gates and truth tables.
Text Books:
1 Basic Electrical Engineering-Abhijit Chakrabarti, SudipNath, Chandan Kumar Chnada, Tata
McGraw-Hill publishing Limited, New Delhi
2 Principles of Electrical Engineering and Electronics- V K Mehta, Rohit Mehta , S Chand and
Company , New Delhi
3 Solid State Electronic Devices- Ben G. Streetman and Sanjay Kumar Banerjee, PHI.
Reference Books:
1 Basic Electrical Engineering-D P Kothari, I J Nagrath, Tata Mcgraw-Hill Publishing Company,
New Delhi
2 Integrated Electronics: Analog & Digital Circuit Systems – Jacob Millman & Halkias, TMH 3 Digital Principles & Applications, 8th Edition by Donald P Leach, Albert Paul Malvino, Goutam
Saha (Tata Mcgraw Hill Publishing Co Ltd, 2014)
ADAMAS UNIVERSITY
Bachelor of Technology
1ST
YEAR SEMESTER – II
Module 1: BASIC CELL BIOLOGY
Introduction; Living Organisms; Cells and Cell theory, Cell Structure and Function, Genetic
information, protein synthesis, and protein structure, Cell metabolism; Cell growth, reproduction,
and differentiation; Cell division, cell cycle and apoptosis; ATP synthesis and Glycolysis;
Respiration and photosynthesis.
Module 2: BIOCHEMISTRY AND TRANSPORT PROCESS
Chemistry of life: chemical bonds; Non-covalent interactions and free energy changes in biological
processes; Fundamentals of momentum, heat and mass transport as applied to biological systems;
Human body as a thermodynamic system; Blood Rheology, Fluid mechanical aspects of some
diseases and organs; Biochemistry and Human biology; Stem cells and Tissue engineering.
Life Sciences SBT41108 3-0-0 3 Credits
Module 3: CHEMICAL BIOLOGY
Carbohydrates; Lipids; Proteins: structure and sequencing; DNA: structure and sequence, replication,
recombination; RNA synthesis; Genetic code and protein biosynthesis; Recombinant DNA
technology.
Module 4: ENZYMES AND INDUSTRIAL APPLICATIONS
Enzymes: mechanism, kinetics and inhibition; Biological catalysts, Proteases, Carbonic anhydrase,
Restriction enzymes, and Nucleoside monophosphate kinases.
Module 5: FERMENTATION TECHNOLOGY AND APPLICATIONS
Introduction and scope of microbial processes. Sources of industrial cultures and maintenance.
Alcoholic fermentation: Production of Industrial Alcohol. Brewing and malting, manufacture of wine
and other distilled liquors. Microbial Foods – Food, Fodder and Baker's yeast, applications of the
nonconventional raw materials; Nutritional characteristics of food yeast, mushroom production;
Vitamins- Vitamin B-2, Riboflavin, Soya-sauce & cheese production. Production of acids, viz., citric,
lactic and gluconic acid. Mechanism of each fermentation, their uses. Production of Amino acids and
Antibiotics and its new Developments. Production of Organic Acids its spoilage and prevention.
Module 6: MECHANOCHEMISTRY
Molecular Machines/Motors; Cytoskeleton; Biosensors; Bio-Micro devices.
Module 7: HUMAN PHYSIOLOGY
Physiology of cells and molecules; cellular physiology of the nervous system; cardiovascular and
respiratory systems; gastrointestinal and renal systems; endocrine and reproductive systems.
Module 8: IMMUNE SYSTEM AND CELL SIGNALING
Immune system; General principles of cell signaling.
Module 8: IMPACT OF BIOLOGY ON SOCIETY AND MANKIND
Crop management, Disease control, Biological Hazards and safety; Unsolved Problems in Biology.
Text Book:
S. ThyagaRajan, N. Selvamurugan, M. P. Rajesh, R. A. Nazeer, Richard W. Thilagaraj, S.
Barathi, and M. K. Jaganathan, "Biology for Engineers," Tata McGraw-Hill, New Delhi, 2012.
Reference Book:
Biology for Engineers. Arthur T. Johnson. 2010 by CRC Pres. ISBN 9781420077636
ADAMAS UNIVERSITY
Bachelor of Technology
1ST
YEAR SEMESTER – II
Module 1 - Introduction to Statics
Concept of particle and Rigid body, Vector, Introduction to Vector Algebra, Addition and subtraction
of Vectors and different laws, Lami’s theorem, Free Vector, Bound Vector, Representation of
Vectors in terms of I, j and k, Cross product and Dot product and their application, scalar.
Module 2 - Force System
Engineering Mechanics EME41104 3-0-0 3 Credits
Introduction, Force, Two-Dimensional Force system, Resolution of Force, Moment, Couple,
Varignon’s Theorem, Resultant of Forces.
Module 3 – Equilibrium Introduction, Equilibrium in Two-Dimension, Free body Concept and Diagram, Equation of
Equilibrium.
Module 4 - Distributed Force
Introduction, Center of Mass and Centroid, Centroid of Mass, Centroid of Line and Area (Triangle,
Circular section, Quadrilateral, Composite Area etc.).
Module 5 – Friction Introduction, Concept of Friction, Law of Coulomb Friction, Angle of Repose, Coefficient of
Friction, Application of Friction in Machines.
Module 6 - Moment of Inertia Mass Moment of Inertia of Symmetrical bodies, Area Moment of Inertia, Introduction, M.I of Plane
figures w.r.t an axis on its plane, M.I of plane figures w.r.t an axis perpendicular to its plane, Parallel
axis theorem.
Module 7 – Virtual Work Introduction of Virtual work, Principal of Virtual work, Application of Principal of Virtual work.
ADAMAS UNIVERSITY B.Tech Civil Engineering
SEMESTER – III
FLUID MECHANICS & ECE42101 3-0-0
3
HYDRALICS
Module 1:
Introduction to Fluid Mechanics - Fluid, Fluid types, Thermodynamic
properties, Introduction of Viscosity. Fluid statics: Forces on plane and [12]
curved surfaces, Center of pressure. Stability of floating bodies,
Metacentre.
Module 2:
Introduction; Basic equations on the continuity, momentum, and energy. Flow
[12]
through closed conduits: Laminar flow, Turbulent flow, Pipes in Series and
Parallel, Pipe Networks, Unsteady Flow. Forces on immersed bodies: Drag and
Lift. Concept of boundary layer and its growth.
Module 3 :
Weirs and Notches: Rectangular, triangular, Cippoletti, sharp crested
and broad crested weirs, submerged weirs.
Turbulent flow in circular pipes: Fluid friction in pipes, head loss due [12]
to friction. Darcy-Weisbach equation, Variation of friction factor with
wall roughness – Moody’s chart. Minor losses in pipes.
Water Hammer: Speed of pressure wave, slow and rapid closure, use of
surge tank.
Module 4 :
Steady uniform flow in open channel: Characteristics, Chezy's, Manning's and Bazin’s formulae. Hydraulically efficient cross sections. Flow through channels of circular cross sections – depths for maximum velocity and discharge.
[12]
Varied flow through open channel: Gradually varied and rapidly varied flows. Definition, Specific Energy, Critical, Sub-critical and Super-critical flows. Channel transitions - constricted or raised bed. Establishment of critical flow, Venturi flume and Parshall flume. Definition and diagram for Specific force, Hydraulic Jump.
Module 5 :
Dimensional Analysis and Model studies: Dimensions and dimensional homogeneity, Importance and use of dimensional analysis. Buckingham’s Pi theorem with applications. Geometric, Kinematic and Dynamic similarity. Non Dimensional Numbers.
[12]
Introduction to Hydraulic Turbines: Working Principles of Pelton, Francis and Kaplan turbines.
Pumps: Centrifugal pumps, performance characteristic graph – design flow rate. Working principles of positive displacement pumps, gear, reciprocating and vane pumps. Hydraulic Ram.
Text Books:
1 Fluid Mechanics Modi & Seth Standard Book House, New Delhi
2 Fluid Mechanics A.K.Jain Khanna Publishers, New Delhi
3 Fluid Mechanics & Machinery H. M. Raghunath CBS Publishers, New Delhi
Reference Books:
1 Reference Book: 2 Fluid Mechanics, Hydraulics and Fluid Machines S. Ramamrutham Dhanpat Rai
ADAMAS UNIVERSITY
B.Tech Civil Engineering
SEMESTER – III
SOLID MECHANICS EME42103 3-0-0 3
Module 1:
Review of Basic Concepts of Stress and Strain: Normal stress, Shear stress, Bearing
stress, Normal strain, Shearing strain; Hooke’s law; Poisson’s ratio; Stress-strain
diagram of ductile and brittle materials; Elastic limit; Ultimate stress; Yielding;
Modulus of elasticity; Factor of safety. [12]
Beam Statics: Support reactions, concepts of redundancy, axial force, shear force and
bending moment diagrams for concentrated, uniformly distributed, linearly varying
load, concentrated moments in simply supported beams, cantilever and overhanging
beams.
Module 2:
Symmetric Beam Bending: Basic kinematic assumption, moment of inertia, elastic
flexure formulae and its application, Bending and shear stress for regular sections, shear [10]
Centre
Deflection of statically determinate beams: Fundamental concepts: Elastic curve,
moment Curvature relationship, governing differential equation, boundary conditions:
Direct integration solution.
Module 3 :
Analysis of determinate plane trusses: Concepts of redundancy, Analysis by method
of joints, Method of sections. [10]
Two Dimensional Stress Problems: Principal stresses, maximum shear stresses,
Mohr’s circle of stresses, construction of Mohr’s circle
Module 4 :
Introduction to thin cylindrical & spherical shells: Hoop stress and meridonial - [10]
stress and volumetric changes.
Torsion: Pure torsion, torsion of circular solid shaft and hollow shafts, torsional
equation, torsional rigidity, closed coil helical; springs.
Columns: Fundamentals criteria for stability in equilibrium, column buckling theory, Euler’s load for columns with different end conditions, limitations of Euler’s theory problems, eccentric load and secant formulae.
Text Books: 1 Elements of Strength of Material S. P. Timoshenko & D. H. Young EWP Pvt. Ltd 2 Engineering Mechanics of Solids E. P. Popov Pearson Education 3 Strength of Materials R. Subramanian OXFORD University Press Reference Books: 1 Strength of Material, R.K.Bansal. 2 Strength of Materials S S Bhavikatti Vikas Publishing House Pvt. Ltd.
ADAMAS UNIVERSITY B.Tech in Civil Engineering
SEMESTER – III
SURVEYING-I ECE42105 3-0-0 3 Credits
Module 1: Introduction- Various types of surveying- based on methods and
instruments, classifications, uses and necessity of geodetic surveying, photographic,
astronomy and hydrographic surveying. Diagonal scale, various types of venires, [6]
micrometres on surveying instruments, principles of surveying. Chain surveying,
instruments required for linear measurement, minor instruments for setting out right
angle
Module 2: Leveling and contouring-Definitions, technical terms, different types of
levels such as dumpy, quickset, precise, auto temporary and permanent adjustments of
dumpy and auto level. Different methods of leveling, reduction of levels, problems.
Difficulties in leveling work, corrections and precautions to be taken in leveling work.
Contour –definitions, contour interval, equivalent, uses and characteristics of contour [4]
lines, direct and indirect methods of contouring. Running a level line, L section, cross
section, methods of interpolation. Grade contour- definition, use, setting out in field.
Computation of volume by trapezoidal and prismoidal formula, volume from spot
levels, volume from contour plan.
Module 3: Plane table surveying-Definitions, uses and advantages, temporary
adjustments. Different methods of plane table surveying. Two point problem. Errors in [2]
plane table survey, use of telescopic alidade.
Module 4: Traverse Surveying-Compass: Bearings- different types, compass –
prismatic, surveyor, whole circle, reduced bearings, Local Attraction. Theodolite:-
Various parts and 88 axis of transit, technical terms, temporary and permanent
adjustments of a transit, horizontal and vertical angles, methods of repetition and
reiteration. Different methods of running theodolite traverses, Gales‟ traverse table, [6]
balancing of traverse by Bow-Ditch’s transit and modified transit rules. Problems on
one-plane and two-plane methods, omitted measurements. Precautions in using
theodolite, errors in theodolite survey. Use of theodolite for various works such as
prolongation of a straight line, setting out an angle
Module 5: Setting out works- General horizontal and vertical control, setting out of
foundation plan for load bearing and framed structure, batter board, slope and grade
stakes, setting out with theodolite. Setting out of sewer line, culvert, use of laser for
works. Setting out center line for tunnel, transfer of levels to underground work Project
/ route survey for bridge, dam and canal. Checking verticality of high rise structures. [6]
Module 6: Areas- Area of a irregular figure by Trapezoidal rule, average ordinate
rule,Simpson‟s 1/3 rule, various coordinate methods. Planimeter: types of planimeter [4]
including digital planimeter, area of zero circle, use of planimeter.
Text Books:
1 Surveying and Leveling. N.N.Basak,1st Edition ,Tata McGraw Hill, 6TH
EDITION , 2017
2 Surveying and Leveling, Vol I & II, Kanetkar and Kulkarni, 24th edition, Pune Vidyarthi Griha, Pune.
Reference Books:
1 ― Surveying, R Agor, Khanna Publishers.4TH
EDITION,2017
ADAMAS UNIVERSITY B.Tech Civil Engineering
SEMESTER – IV
STRUCTURAL ANALYSIS -I ECE42102 3-1-0 4 Credits
Module 1:
Introduction - General Concept of Static Equilibrium of Structures, Concept of Free
Body Diagram. Support and connection, Elastic and linear behavior of structure.
Principal of superposition. [4]
General Theorem relating to elastic structure - Principal of virtual work, Strain energy
stored due to axial loading. , Maxwell’s reciprocal deflection theorem, Betti’s law,
Castigliano’s 1st
theorem.
Module 2:
Analysis of statically determinate structures – Analysis of Statically Determinate
Trusses, Energy , Methods for Determination of Joint Displacements – Castigliano’s,
Theorem, Unit Load Method etc , Moment Area Theorem, Conjugate Beam Method,
Maxwell Betti’s Theorem, Method of Superposition. Application of Energy Methods to [10]
Statically Determinate Beams and Rigid Frames
Analysis of statically determinate structures – Introduction to Analysis of Statically
Indeterminate Trusses, beams, frames using Energy Methods.
Module 3:
Analysis of Arches and cable structures – Analysis of Three hinged arch.
Cable equation of the cable , Horizontal tension in the cable supported at different
levels , Length of cable support a the same level and different levels , Effect on cable [8]
due to temperature change , Three hinged stiffening girder .
Column and Struts – Theory of bucking , Euler’s theory of struts foe different support
conditions , Struts subjected to axial loads , Euler’s and rankine’s design formula ,
Struts subjected to eccentric and lateral loading , struts with initial curvature.
Module4:
Analysis of Rolling Loads and Influence Line Diagram- Analysis of bending [8]
moment and shear force subjected to a concentrated and series of rolling load , Analysis
of bending moment and shear force subjected to a udl rolling load , Maximum bending
moment and absolute bending moment concepts
Text Books: 1 Structural Analysis Volume – I, Bhavikatti, 3rd edition, Vikas Publishers, 2009. 2 Intermediate Structural Analysis, C K Wang, McGraw Hill , 3
RD EDITION , 2010
Reference Books:
1 Theory of Structures, Timoshenko & Young, Tata McGraw Hill , 4TH
EDITION, 2010
2 Structural Analysis Volume – I , Devdas Menon, Narosa Publication , 5TH
EDITION , 2009
ADAMAS UNIVERSITY
B.Tech Civil Engineering
SEMESTER – IV
CIVIL ENGINEERING ECE42104 3-0-0 3
MATERIALS
Module 1:
Properties of construction materials and their evaluation (creep, elastic modulus, fatigue, impact, etc.); test methods and specifications.
[12]
Bricks: Classification, Characteristics of good bricks, Ingredients of good brick earth, Harmful substance in brick Earth, Different forms of bricks, Testing of bricks as per BIS. Defects of bricks.
Module 2:
Aggregates sources, properties, chemical reactivity; Concrete constituents, proportioning, properties in fresh and hardened state, characteristic strength, quality control (sampling, acceptance, etc.),
transportation and placing, testing (including NDT), porosity; Cement [12] chemical composition, properties such as setting, strength, fineness, hydration;
Concrete: Types, ingredients, W/C ratio, Workability, Different grades in cement concrete, Tests on cement concrete.
Module 3 :
Mortars: Classification, Uses, Characteristics of good mortar, Ingredients. Cement mortar, Lime Mortar, Lime cement mortar, special
mortars. [12] Admixtures chemical, mineral; Steel properties, types of steel, steel in
civil engineering;
Wood and Wood Products: Classification of Timber, Structure,
Characteristics of good timber, Seasoning of timber, Defects in Timber,
Diseases of timber, Decay of Timber, Preservation of Timber Testing of
Timber, Veneers , Plywood, Fibre Boards, Particle Boards, Chip Boards ,
Black Boards, Button Board and Laminated Boards, Applications of
wood and wood products , Paints, Enamels and Varnishes ,
Miscellaneous Materials.
Module 4 :
Foundations: Function of Foundations, Essential requirement of good
foundation, Different types of shallow and deep Foundations, Brick
masonry: Definitions, Rules for bonding, Type of bonds – stretcher bond,
Header bond, English bond, Flemish Bond, Comparison of English Bond [12]
and Flemish Bond (one and one and half brick thick wall), Wall, Doors
and Windows: Load bearing wall, Partition wall, Reinforced brick wall
Common types of doors and windows of timber and metal.
Module 5 :
New materials Fibre reinforced plastics (FRPs), epoxy-coated bars, etc.
with performance requirements, test methods, specifications; Bitumen [12]
source, composition, characterization, various forms, tests on bitumen;
Bituminous mix design; Soil description, engineering geology of soils
and their formation, index properties of soil, classification of soils
Text Books:
1 Plain & reinforced concrete, Vol. I, O.P. Jain & Jaikrishna
2 Concrete technology, theory and practice, M.S. Shetty.
3 Properties of concrete, Neville, El, Society & Pub.
4 Engineering Materials S.C. Rangwala ,
5 Building Construction B.C. Punmia , 2014
6 Soil Mechanics & Foundation Engineering by B C Punmia,16th Edition, Laxmi Publications
Reference Books: 1 Relevant I.S. codes. 2 Building Construction and Foundation Engineering , Jha and Sinha , 2013
ADAMAS UNIVERSITY B.Tech Civil Engineering
SEMESTER – IV
SOIL MECHANICS - I ECE42108 3-1-0 4 Credits
Module 1:
Soil as three-phase system in terms of weight, volume, voids ratio, and porosity.
Definitions: moisture content, unit weights, degree of saturation, void ratio, porosity,
specific gravity, mass specific gravity etc. Relationship between volume weight, void
ratio- moisture content, unit weight- percent air voids, saturation- moisture content,
moisture content- specific gravity etc. Determination of various parameters such as: [6]
Moisture content by oven dry method, pycnometer, sand bath method, torsional balance
method radioactivity method, and alcohol method. Specific gravity by density bottle
method, pycnometer method, measuring flask method. Unit weight by water
displacement method, submerged weight method, core cutter method, sands
replacement method.
.
Module 2:
Plasticity Characteristics of Soil-Introduction to definitions of: plasticity of soil,
consistency limits-liquid limit, plastic limit, shrinkage limit, plasticity, liquidity and
consistency indices, flow & toughness indices, definitions of activity and sensitivity.
Determination of: liquid limit, plastic limit and shrinkage limit.Use of consistency [6] limits. Classification of Soils-Introduction of soil classification: particle size
classification, textural classification, unified soil classification, Indian standard soil
classification system.Identification: field identification of soils, general
characteristics of soil in different groups.
Module 3:
Permeability of Soil-Introduction to hydraulic head, Darcy‟s law, validity of Darcy‟s
law. Determination of coefficient of permeability: Laboratory method: constant head [4]
method, falling head method. Field method: pumping- in test, pumping- out test. Permeability aspects: permeability of stratified soils, factors affecting permeability of
soil. Seepage Analysis- Introduction, stream and potential functions, characteristics of
flow nets, graphical method to plot flow nets.
Module4:
Effective Stress Principle-Introduction, effective stress principle, nature of effective
stress, effect of water table.Fluctuations of effective stress, effective stress in soils
saturated by capillary action, seepage pressure, quick sand condition.Compaction of [3]
SoilIntroduction, theory of compaction, laboratory determination of optimum moisture
content and maximum dry density. Compaction in field, compaction specifications and
field control
Module5:
Consolidation of Soil-Introduction, comparison between compaction and consolidation,
initial, primary & secondary consolidation, spring analogy for primary consolidation,
consolidation test results, basic definitions, Terzaghi‟s theory of consolidation, final [4]
settlement of soil deposits, consolidation settlement: one- dimensional method,
secondary consolidation
Module6:
Shear Strength-Principle planes parallel to the coordinate axes, Mohr‟s circle, important
characteristics of Mohr‟s circle, Mohr-Coloumb theory, types of shear test: direct shear
test, merits of direct shear test, triaxial compression tests, test behaviour of UU, CU and [3]
CD tests, relation between major and minor principal stresses, unconfined compression
test, vane shear test.
.
Module7:
Stability of Slopes-Introduction, different factors of safety, types of slope failures,
analysis of finite and infinite slopes, wedge failure Swedish circle method, friction [4]
circle method, stability numbers and charts. Soil Exploration- Introduction, methods of
investigation, methods of boring, soil samplers and sampling, number and deposition of
trail pits and borings, penetrometer tests, borehole logs, geophysical methods.
Text Books:
1 Soil Mechanics & Foundation Engineering by B C Punmia,16th Edition, Laxmi Publications . 2 Soil Mechanics & Foundation Engineering by B C Punmia,16th Edition, Laxmi Publications 3
rd
edition. Reference Books:
1 Soil Mechanics by Craig R.F., Chapman & Hall , 5th
edition , 2010
ADAMAS UNIVERSITY B.Tech in Civil Engineering
SEMESTER – V
DESIGN OF RC ECE43101
3-1-0
4 Credits
STRUCTURE
Module 1:
Reinforced Concrete Fundamentals (working Stress Method): Concept of
reinforced concrete, stress strain characteristics of concrete and steel
reinforcement, elastic theory, Reinforced concrete (RC) structures,
Loadings, analytical models for analysis and design of RC structures,
Design Methodologies singly reinforced, balanced section, under [12]
reinforced section and over reinforced section, analysis and design of
singly reinforced doubly reinforced rectangular and T-sections, design of
one way and two way slab as per IS-456, shear and bond stresses and
design for shear and bond, design of axially loaded columns, analysis of
sections subjected to bending and axial forces( tension or compression).
Module 2:
Limit state method of design: Basic concepts and IS code provisions (IS:
456 2000) for design against bending moment and shear forces; concepts
of bond stress and development length; Use of ‘design aids for
reinforced concrete’ (SP:16). [21]
Analysis, design and detailing of singly reinforced rectangular, ‘T’, ‘L’
and doubly reinforced beam sections by limit state method. Design and
detailing of one-way and two-way slab panels as per IS code provisions,
Design and detailing of continuous beams and slabs as per IS code
provisions, Shear and torsion; Bond and anchorage.
Module 3: Staircases: Types; Design and detailing of reinforced concrete doglegged staircase ,
Design and detailing of reinforced concrete short columns of rectangular [15]
and circular cross sections under axial load. Design of short columns subjected to axial load with moments (uniaxial and biaxial bending) –
using SP 16. Shallow foundations: Types; Design and detailing of reinforced concrete isolated square and rectangular footing for columns as per IS code provisions by limit state method.
Text Books: 1 Plain and Reinforced Concrete, Vol. I, Jain & Jaikrishna, Nemchand Brothers. 2 Design of Reinforced Concrete Structures, Dayaratnam P,Oxford & IBH. 3 Design of Pre-stressed Concrete Structures, Lin T Y & Ned Burns John Wiley. 4 Prestressed Concrete, Krishna Raju, Tata McGraw Hill. 5. Reinforced concrete design by pillai and menon. Reference Books: 1 Prestressed Concrete, Evans R H & Benett E W, Chapman & Hall.
ADAMAS UNIVERSITY
B.Tech Civil Engineering
SEMESTER – VII
STRUCTURAL ANALYSIS - ECE43103 3-1-0
4 Credits
II
Module 1:
Redundant structures: Concepts of statical and kinematic indeterminancy of
beams, trusses and portal frames; Application of second theorem of Castigliano
and method of consistent deformation for analysis of propped cantilever, fixed [20]
beams and continuous beams (maximum two degree of indeterminacy) for
simple loading cases.
Arches: Introduction. Three hinged arch-analysis and influence line. Two
hinged arch and fixed arch --application of unit load method, Castigliano’s 2ND
method and elastic centre method, Influence line for arches.
Module 2:
Portal frame: Solution by- unit load method, Castigliano’s method.
Moment distribution method - solution of continuous beam, effect of [18]
settlement and rotation of support, frames with or without side sway.
Slope Deflection Method – Method and application in continuous beams and
Frames. Cables & Suspension bridges with three hinged stiffening girders.
Module 3 :
Curved beams- analysis Hooks, Rings and Bow girders. Un-symmetrical
bending. [22]
Column analogy –method, application Stiffness and carry over factors for non-
prismatic members.
Kani’s method: application to indeterminate beams and frames
Text Books:
1 Theory of structures: by S.P.Timoshenko 2 Theory of structures: by S.Ramamurthum. 3. Statically indeterminate structures: by C.K.Wang 4. Basic structural analysis: by C.S. Reddy Reference Book: 1. Matrix method of structural analysis: by M.B.Kanchi 2. Mechanics of structures: by Thadani 3. Indeterminate structural analysis: by Kinney
ADAMAS UNIVERSITY B.Tech Civil Engineering
SEMESTER – V
SOIL MECHANICS - II ECE43105 3-1-0 4 Credits
Module 1:
Lateral Earth Pressures Theories- Introduction: applications of earth pressure theories,
different types of earth pressure at rest, active and passive pressure. Rankine’s Earth
Pressure Theory, active earth pressure and passive earth pressure for horizontal and
inclined backfill including the direction of failure Planes for cohesion-less and cohesive
soils. Coulomb’s Wedge Theory: Coulomb’s active pressure in cohesion-less soils, [6]
expression For active pressure, Coulomb’s passive earth pressure. Rebhann’s Construction for
Active Pressure, Culmann’s graphical solutions for active soils, Wedge Method, passive pressure
by friction circle method for cohesion-less and cohesive soils. .
Module 2:
Earth Retaining Structures- Rigid and flexible retaining structures, stability analysis of
retaining walls, cantilever retaining Walls, construction details, drainage and wall [4]
joints.
Module 3:
Bearing Capacity of Shallow Foundation- Definitions of ultimate bearing capacity,
gross, net and safe pressures, allowable bearing pressure, types of shallow foundations
modes of failures. Bearing capacity theories: Rankine’s approach, Prandtl’s approach
and Terzaghi’s approach, concept behind derivation of equation, general bearing
capacity equation, bearing capacity equations for square and circular footings, factors
[8]
influencing bearing capacity, performance of footings in different soils, Vesic’s chart,
ultimate bearing capacity in case of local shear failure. Plate load test in detail with
reference to IS1888 and its applications and estimation of settlements, bearing capacity
based on Standard Penetration Test.
Module4:
Axially Loaded Pile Foundations: 4.1 Introduction to pile foundations, necessity of pile
foundation, classification of piles, construction methods of bored piles, concrete bored
piles, driven cast in-situ piles. Pile capacity based on static analysis, piles in sand, piles [6]
in clay, dynamic methods and their limitations, in- situ penetration tests and pile load
test as per IS 2911 specifications, negative skin friction. Pile groups ultimate capacity
of groups, settlement of pile groups in sand and in clay as per IS 2911 and critical depth
method..
Module5:
Consolidation of Soil-Introduction, comparison between compaction and consolidation,
initial, primary & secondary consolidation, spring analogy for primary consolidation,
consolidation test results, basic definitions, Terzaghi‟s theory of consolidation, final [10]
settlement of soil deposits, consolidation settlement: one- dimensional method,
secondary consolidation.
Module6:
[5]
Underground Conduits- Classes of underground conduits, load on a ditch conduit,
settlement ratio, ditch condition and projection condition, imperfect ditch conduit.
Module7:
[5]
Open Cuts: Difference in open cuts and retaining walls, apparent pressure diagrams,
average apparent pressure diagrams for sand and stiff clay, estimation of loads on struts.
Text Books: 1 Soil Mechanics & Foundation Engineering by B C Punmia,16th Edition, Laxmi Publications . 2 Soil Mechanics & Foundation Engineering by B C Punmia,16th Edition, Laxmi Publications 3
rd
edition. Reference Books:
1 Soil Mechanics by Craig R.F., Chapman & Hall , 5th
edition , 2010
ADAMAS UNIVERSITY B.Tech Civil Engineering
SEMESTER – V
TRANSPORTATION ECE43107
3-0-0 3 Credits
ENGINEERING-I
Module 1:
Highway planning-Classification of roads, brief history of road development in India,
present status of roads in India, road patterns, saturation systems, highway alignment:
basic requirements for an ideal alignment, factors governing highway alignment, [4]
highway location surveys and studies, highway alignment in hilly areas, drawings and
reports, highway project preparation.
.
Module 2: Geometric design of highways-Terrain classification, design speed, vehicular characteristics, highway cross-section elements Sight distance: introduction to sight distance, reaction time, analysis of safe sight distance, analysis of overtaking sight distance, intersection sight distance. Design of horizontal alignment: horizontal curves,
design of super elevation and its provision, radius at horizontal curves, widening of [4]
pavements at horizontal curves, analysis of transition curves. Design of vertical alignment:
different types of gradients, grade compensation on curves, analysis of vertical curves, summit
curves, valley curves. Intersection: at grade and grade separated intersections, speed change
lanes, Canalization, Design of rotary intersection and mini roundabout.
Module 3: Traffic engineering & control-Traffic engineering definitions: functions, organization and importance, necessity of understanding the behavior of road user and vehicle
characteristics, human factors governing the road user behavior- power performance and other vehicular characteristics. Traffic studies and surveys: Speed studies:
presentation of data, journey time and delay studies, uses and various methods, relative merits and demerits Vehicular volume counts: types, various available methods, relative merits and demerits, planning of traffic counts, vehicle occupancy surveys. Origin: [8] destination surveys, need and uses, various available methods, checks for accuracy, presentation of data. Parking surveys: needs and types. Study of various photographic techniques available for traffic studies. Traffic signs and marking: types, location, height etc., miscellaneous traffic control aids like roadway delinators, hazard markers, object marker, speed breakers, rumble strips etc., Street lighting: needs, definitions, laws of illumination, methods of discernment, glare problem, light lantern arrangement, types of lamps, planning and designing.
Module4:
Pavement materials- Stone aggregates: desirable properties, tests, requirements of
aggregates for different types of pavements. Bituminous materials: types, tests on [6]
bitumen, desirable properties, selection of grade of bitumen. Bituminous mix design:
principle, methods, modified binders.
Module5:
Design of pavements-Types of pavements, comparison of different types of pavements,
functions of pavement components, pavement design factors, design wheel load,
equivalent single wheel load, repetition of loads, equivalent wheel load factors, strength
characteristics of pavement materials, climatic variation; design of flexible highway
pavement as per IRC approach, design of flexible airport pavements, Stresses in rigid
highway pavements, critical load positions, stresses due to loads, stresses due to [8]
temperature change, combined loading and temperature stresses, Joints in rigid
pavements: transverse joints, longitudinal joints, fillers and sealers.
Text Books:
1 L R Kadiyali, N B Lal, Principles and practice of highway engineering, Khanna Publications,
2005.
2 Principles Of Transportation Engineering, Partha Chakroborty, PHI Learning, 1st edition
Reference Books: 1 Principles of Highway Engineering and Traffic Analysis, 4th Edition, Fred L. Mannering, Scott S.
2 Morlok, E.R., an Introduction to Transportation Engineering and Planning, McGraw Hill, NY,
2010
ADAMAS UNIVERSITY B.Tech Civil Engineering
SEMESTER – VI
DESIGN OF STEEL ECE43102 3-1-0
4 Credits
STRUCTURE
Module 1: Materials and Specification:-Rolled steel section, types of
structural steel, specifications. Limit states and design philosophy; [6]
partial safety factors and load combinations; Analysis and design
methods.
Module 2 : Structure connections: Riveted, welded and bolted including
High strength friction grip bolted joints. – types of riveted & bolted
joints, assumptions, failure of joints ,efficiency of joints, design of bolted
riveted & welded joints for axial load. [12]
Eccentric connection:- Riveted & bolted joints subjected to torsion &
shear, tension & shear, design of riveted, bolted & welded connection.
Module 3: Design of tension members based on net section including
shear lag effects, staggered holes and block shear; Design of compression members for flexural and flexural torsional buckling, Column formula,
Local buckling and buckling class, End restraints and effective length [10]
factor; Role of plate buckling, Plastic hinge, Classification of section: plastic, compact, semi-compact, slender.
Module 4: Design strength of laterally supported beams, Shear buckling
strength Post-critical method, Shear moment interaction, Design strength
of laterally unsupported beams, Lateral torsional buckling, Effect of [10]
restraints and effective length; Effect of axial load on flexure behaviour,
Cross-section yielding and member instability, PM interaction and
moment amplification, Biaxial bending
Module 5: Plate girders: Design of webs & flanges, Concepts of
curtailment of flanges – Riveted & welded web stiffeners, web flange
splices - Riveted, welded& bolted.
Gantry Girder: Design gantry girder considering lateral buckling – I.S [10]
code provisions.
Plastic Analysis of Steel Beam Section.
Text Books:
1 Limit State Design of Steel Structures IS:800-2007, V.L.Shah and Veena Gore, Structures
Publications, 2010
2 Design of Steel Structures, S.S.Bhavikatti, I.K. International Publishing House Limited, 2010. 3.
Reference Books: 1 Design of Steel Structures, N. Subramanian, Oxford University Press, 2010 2 Relevant IS Codes
ADAMAS UNIVERSITY B.Tech Civil Engineering
SEMESTER – VI
WATER RESOURCE ENGINEERING ECE43106 3-1-0 4 Credits
Module 1
Introduction: Irrigation, water resources in India, need of irrigation in India, [4]
development of irrigation in India, impact of irrigation on human environment,
irrigation systems: minor and major, command area development.
Module 2:
Hydrology: hydrologic cycle, rainfall –runoff process, factors affecting runoff, runoff [7]
hydrograph, runoff computations, flood discharge calculations, unit hydrograph
method, S-hydrograph.
Module 3:
Water requirement of crops: Crops and crop seasons in India, cropping pattern, duty
and delta; Quality of irrigation water; Soil-water relationships-soil characteristics [6]
significant from irrigation considerations, root zone soil water, infiltration, consumptive
use, irrigation requirement, frequency of irrigation; Methods of applying water to the
fields: surface, sub-surface, sprinkler and trickle / drip irrigation.
Module 4:
Ground water and well hydrology: Ground water resources, occurrence of ground
water, methods of ground water exploration, well irrigation; Well hydraulics: steady [4]
state flow in wells, equilibrium equations for confined and unconfined aquifers, aquifer
tests, design of water wells.
Module 5: [8]
Distribution system: Canal systems, alignment of canals, canal losses, estimation of
design discharge. Design of channels-rigid boundary channels carrying clear and
sediment laden water, alluvial channels carrying clear and sediment laden water,
Kennedy‟s and Lacey‟s theory of regime channels. Canal outlets: non-modular, semi-
modular and modular outlets. Waterlogging: causes, effects and remedial measures.
Lining of canals-economics of lining, types of lining. Drainage of irrigated lands:
necessity, methods.
Module 6: [4]
Canal structures: Surface and sub-surface flow considerations for design of canal
structures: hydraulic jump, seepage forces, uplift forces. Canal falls, cross regulator,
distributary head regulator, canal escapes: types, components and design considerations,
Cross drainage works: need, types, design considerations.
Module 7: [4] Canal headworks: Weir and barrage, different units of headworks, types of weirs, sediment control in canals, river training for canal headworks. Theories of seepage for design of weirs:
Bligh‟s creep theory, Lane‟s weighted creep theory, Khosala‟s method of independent variables.
Module 8: [4]
Dams and spillways: Embankment dams, Classification, selection of site for dam,
design considerations, estimation and control of seepage, slope protection. Gravity
dams: forces on gravity dams, causes of failure, stress analysis, elementary and
practical profile, structural joints, keys and water seals, galleries, outlets. Arch and
buttress dams-types. Spillways: components of spillways, types, terminal structures,
types of gates for spillway crests; Reservoirs-Types, capacity of reservoirs, yield of
reservoir, reservoir regulation, sedimentation, economic height of dam, selection of
suitable site, flood routing.
Text Books:
1 G L Asawa, Irrigation Engineering, Wiley Eastern
2 S K Garg, Irrigation Engineering & Hydraulic Structures, Khanna Publishers.
3 P N Modi, Irrigation Engineering & Hydraulic Structures
Reference Books:
1 J D Zimmerman, Irrigation, John Wiley & Sons
2 Varshney, Gupta & Gupta, Theory and Design of Irrigation Structures, Nem Chand & Bros.
3 Punmia B C & Pande B B Lal, Irrigation Engineering and Water Power Engineering, Laxmi Publications.
ADAMAS UNIVERSITY
B.Tech Civil Engineering
SEMESTER – VI
ENGINEERING GEOLOGY ECE43110 3-0-0 3
Module 1:
Geology and its importance in Civil Engineering.
Mineralogy: Definition, internal and external structure of minerals, study of crystals,
Classification and physical properties of minerals.
Classification of rocks: Igneous rocks: Origin, mode of occurrence, forms & texture, [12]
classification and engineering importance. Sedimentary rocks: Process of
sedimentation, classification and engineering importance. Metamorphic rocks: Agents
and types of metamorphism, classification and engineering
Importance.
Module 2:
Weathering of rocks: Agents and kinds of weathering, soil formation & classification
based on origin.
[10]
Geological work of rivers: Origin and stages in the system, erosion, transportation and
deposition. Structural geology: Introduction to structural elements of rocks, dip &
strike, definition, description, classification of folds, faults and joints, importance of
geological structures in Civil Engineering.
Module 3 :
Earthquakes and seismic hazards: Causes and effects, seismic waves and
seismographs, Mercelli’s intensity scale and Richter’s scale of magnitude.
[10]
Engineering properties of rocks: Porosity, permeability, compressive strength, tensile
strength and abrasive resistance.
Rocks as construction materials: Qualities required for building and ornamental
stones, foundations, concrete aggregate, railway ballast, road metal, pavement, flooring
and roofing.
Module 4 :
[15]
Geophysical exploration: Methods of Geophysical Exploration, electrical resistivity
method field procedure – sounding and profiling, electrode configuration, and
interpretation of resistivity data.
Geophysical surveys in ground water and other Civil Engg. Projects.
Applied Geology: Surface and subsurface geological and geophysical investigations in major Civil Engg. Projects. Geological studies of Dams and reservoir sites, Geological studies for selection of tunnels and underground excavations.
Landslides: Types of landslides, causes, effects and prevention of landslides.
Text Books:
1 Engineering and General Geology Parvin Singh Katson publishing house Delhi. 2 Engineering Geology for Civil Engineers D. Venkat Reddy, Oxford, IBH, 3 Principles of petrology Tyrell Asia, Bombay Reference Books:
1 Structural Geology Marland P. Billings Wiley eastern Prentice-Hall, U.S.A. 2 Ground Water hydrology Todd D.K. John Wiley & Sons, Second edition,
ADAMAS UNIVERSITY B.Tech Civil Engineering
SEMESTER – VII
ENVIRONMENTAL ECE44101 3-1-0 4 Credits
ENGINEERING-I
Module 1:
Water:- Water Supply systems, Need for planned water supply schemes, Sources of
Water, Water demand and Potable, industrial and agricultural water requirements,
Components of water supply system; Transmission of water, Distribution system, [6]
Various
valves used in W/S systems, service reservoirs and design.
Module 2:
Sewage- Domestic and Storm water, Quantity of Sewage, Sewage flow variations.
Conveyance of sewage- Sewers, shapes design parameters, operation and maintenance
of sewers, Sewage pumping; Sewerage, Sewer appurtenances, Design of sewerage
systems. Storm Water- Quantification and design of Storm water; Sewage and Sullage, [4]
Pollution due to improper disposal of sewage, National River cleaning plans, recycling
of sewage – quality requirements for various purposes.
.
.
Module 3:
Air - Composition and properties of air, Quantification of air pollutants, Monitoring of [6]
air pollutants, Air pollution- Occupational hazards, Urban air pollution automobile
pollution, Chemistry of combustion, Automobile engines, quality of fuel, operating
conditions and interrelationship. Air quality standards, Control measures for Air
pollution, construction and limitations
Module4:
Noise- Basic concept, measurement and various control methods. [6]
Module5:
Solid waste management-Municipal solid waste, Composition and various chemical and
physical parameters of MSW, MSW management: Collection, transport, treatment and
disposal of MSW. Special MSW: waste from commercial establishments and other
urban areas, solid waste from construction activities, biomedical wastes, Effects of solid
waste on environment: effects on air, soil, water surface and ground health hazards. [8] Disposal
of solid waste-segregation, reduction at source, recovery and recycle. Disposal methods-
Integrated solid waste management. Hazardous waste: Types and nature of hazardous waste as
per the HW Schedules of regulating authorities.
Text Books: 1 Introduction to Environmental Engineering by P. Aarne Vesilind, Susan M. Morgan, Thompson
/ Brooks/Cole; Second Edition 2008. 2 Introduction to Environmental Engineering, Vesilind, PWS Publishing Company 2000 Reference Books: 1 Integrated Solid Waste Management, Tchobanoglous, Theissen & Vigil. McGraw Hill Publication 2 Environmental Engineering by H.S.Peavy, D.R. Rowe, G.Tchobanoglous; 2007, Tata-Mcgraw
Hill.
ADAMAS UNIVERSITY B.Tech Civil Engineering
SEMESTER – VII
PRESTRESSED CONCRETE ECE43110 3-0-0 3 Credits
Module 1:
Introduction to pre-stressed concrete: basic concept and general principles, [10]
materials used and their properties, methods and techniques of pre-stressing, pre-
stressing systems, loss of pre-stress.
Module 2:
Analysis of pre-stressed concrete sections: loading stages and computation of [8]
section properties, critical sections under working load for pre-tensioned and post-
tensioned members, load balancing method of analysis of pre-stressed concrete beams.
Module 3:
Design of pre-stressed concrete sections for flexure: general philosophy of design,
design approaches in working stress method and limit stress method, critical [12]
conditions for design, limit state of collapse in flexure, permissible stresses in concrete
and steel, kern points, choice and efficiency of sections, cable profiles and layouts, cable
zone, deflections of pre-stressed concrete members.
Module 4:
Design for shear: calculation of principle tension under working load,permissible [8]
principle tension, shear strength calculation under limit state of collapse for both
sections cracked and un-cracked in flexure.
Module 5:
End zone stresses in pre-stressed concrete members: pretension transfer bond, [10]
transmission length, end block of post-tensioned members
Module 6:
Design of pre-stressed concrete beams: design of simply supported pre-tensioned and [12] post tensioned slabs and beams, introduction to application of pre-stressing to continuous beams, linear transformation and concordancy of cables.
Text Books:
1 Design of Reinforced Concrete Structures, Dayaratnam P, Oxford & IBH , 5TH
EDITION,2010
2 Pre-stressed Concrete, N. Krishna Raju..7TH
EDITION , 2015
Reference Books:
1 Design of Reinforced Concrete Structures, Dayaratnam P, Oxford & IBH , 5TH
EDITION , 2005
ADAMAS UNIVERSITY
B.Tech Civil Engineering
SEMESTER – VII
DESIGN OF BRIDGE ECE43112 3-0-0
3 Credits
STRUCTURE
Module 1:
Introduction, - Definition and Basic Forms, Component of bridge,
classification of bridge, short history of bridge development. I.R.C Loads.
Analysis of IRC Loads, Impact factors, Other loads to be considered, [12]
Importance of Hydraulic factors in Bridge Design.
Reinforced concrete solid slab bridge: Introduction, General design features,
Effective width method. Simply supported and cantilever Slab Bridge, analysis
and design
Module 2:
Box Culvert: Introduction, Design method and Design example.
Beam and Slab Bridges Introduction, Design of interior panel of slab. Pigeauds [18]
method, Design of longitudinal girder, Calculation of longitudinal moment,
design example.
Module 3 :
Balanced Cantilever Bridges: General Features, Arrangement of supports,
design features Articulation, Design example. [20]
Steel Bridges: General features, types of stress, Design example.
Plate Girder Bridge: Elements, design, lateral bracing, Box- girder
Module 4 :
Composite Bridges: General aspects, method of construction, analysis of [20]
composite section, shear connectors, design of composite beam.
Cable Stayed Bridge: General features, Philosophy of design.
Text Books: 1 Principle & Practice of Bridge Engineering S.P. Bindra– DhanpatRai Pub. 2 Essentials of bridge engineering D.J. Victor. 3. Bridge engineering Ponnuswamy. 4. Bridge engineering by Krishnaraju. Reference Book: 1. Design of concrete bridges by Aswani, Vizirani , Ratwani. 2. Design of steel structures Arya&Ajmani.
ADAMAS UNIVERSITY
B.Tech Civil Engineering
SEMESTER – VII
DESIGN OF BRIDGE ECE43112 3-0-0
3 Credits
STRUCTURE
Module 1:
Introduction, - Definition and Basic Forms, Component of bridge,
classification of bridge, short history of bridge development. I.R.C Loads.
Analysis of IRC Loads, Impact factors, Other loads to be considered, [12]
Importance of Hydraulic factors in Bridge Design.
Reinforced concrete solid slab bridge: Introduction, General design features,
Effective width method. Simply supported and cantilever Slab Bridge, analysis
and design
Module 2:
Box Culvert: Introduction, Design method and Design example.
Beam and Slab Bridges Introduction, Design of interior panel of slab. Pigeauds [18]
method, Design of longitudinal girder, Calculation of longitudinal moment,
design example.
Module 3 :
Balanced Cantilever Bridges: General Features, Arrangement of supports,
design features Articulation, Design example. [20]
Steel Bridges: General features, types of stress, Design example.
Plate Girder Bridge: Elements, design, lateral bracing, Box- girder
Module 4 :
Composite Bridges: General aspects, method of construction, analysis of [20]
composite section, shear connectors, design of composite beam.
Cable Stayed Bridge: General features, Philosophy of design.
Text Books: 1 Principle & Practice of Bridge Engineering S.P. Bindra– DhanpatRai Pub. 2 Essentials of bridge engineering D.J. Victor. 3. Bridge engineering Ponnuswamy. 4. Bridge engineering by Krishnaraju. Reference Book: 1. Design of concrete bridges by Aswani, Vizirani , Ratwani. 2. Design of steel structures Arya&Ajmani.
ADAMAS UNIVERSITY B.Tech Civil Engineering
SEMESTER – VII
WASTE MANAGEMENT ECE43114 3-0-0 3 Credits
Module 1:
Industrial Wastes: Nature and characteristics, Prevention and Control, Tools for clean processes: reuse, recycle, recovery, source reduction, raw material substitution Process modification, Flow sheet analysis, Energy and resources audit, Waste audit, [24] emission inventory and waste management hierarchy for process industries, Zero discharge.
.
Module 2:
Environmental indicators, Industrial ecology and ecoparks, rules and regulations, Case studies: Dairy, Fertilizer, Distillery, Pulp and Paper, Iron and steel, Metal plating, [21] Refineries, Thermal power plants, etc.
Text Books:
1 Environmental Engineering by H.S.Peavy, D.R. Rowe, G.Tchobanoglous; 2007, Tata-Mcgraw
Hill. 2 Integrated Solid Waste Management, Tchobanoglous, Theissen & Vigil. McGraw Hill Publication
. Reference Books: 1 Introduction to Environmental Engineering, Vesilind, PWS Publishing Company 2000
ADAMAS UNIVERSITY
B.Tech Civil Engineering
SEMESTER – VIII
ENVIRONMENTAL ECE44102 3-0-0
3 Credits
ENGINEERING-II
Module 1:
Sewage and drainage: Definition of some common terms used in sanitary
engineering. Systems of sanitation, systems of sewerage’s. Types of sewage. [22]
Sources of sanitary sewage. Estimating the quantity of sanitary sewage and
storm sewage.
Design of sewers - Nomograms, partial flow diagrams. Testing of sewer lines
Sewer appurtenances. Pumping of sewage. House drainage.
Module 2:
Characteristics of sewage: Physical, Chemical and Biological. Test on sewage;
Solids, dissolved oxygen, biochemical oxygen demand, stability and relative
stability, chlorides, sulphide, nitrogen. pH value, grease, oil and fat. Biological [18]
tests, carbon, nitrogen and sulphur cycles.
Solid waste disposal: Quality and quantity of refuse, Collection and conveyance
of solid wastes. Disposal of solid waste by composting, and other methods,
Salvaging, grinding and discharging into sewers.
Module 3 :
Disposal by other methods: Oxidation pond, oxidation ditch, aerated lagoon,
septic tank, Iimhoff tank, Disposal by dilution, irrigation and farming, stream
sanitation. [20]
Treatment of sewage: Primary treatment - screen, grit chamber, detritus tank,
skimming tank, plain sedimentation with coagulation. Secondary treatment -
Filtration, normal rate trickling filters, high rate trickling filters activated sludge
process, aeration units, types of activated sludge process, sludge digestion.
Functional design of primary and secondary treatment units. 10h\ References
Text Books:
1 Environmental Engineering S.K. Garg -Khanna Pub 2 Water Supply, Waste Disposal & Enviormental Pollution Engineering – A . K . Chatterjee
– Khanna Pub 3. Water Supply & Waste Water Disposal –G . M . Fair ,J . C . Geyer ,D . A . Okun . –Jhon
Wiley & Sons. 4. Water Supply and Sanitary Engineering By G.S.Birdi Reference Book: 1. Manual of Water Supply & treatment - A Government of India Publication. 2. Water supply sanitary engineering by G.S. Birdi
ADAMAS UNIVERSITY
B.Tech Civil Engineering
SEMESTER – VIII
HYDRAULICS ECE44104
3-1-0
4 Credits
STRUCTURE.
Module 1:
Diversion Head works: Necessity, Difference between weir and Barrage, Type of
Weirs, Selection of site, layout and description of each part, Effects of construction of a
weir on the river regime, causes of failure of weirs on permeable foundation and their
remedies.
[12]
Theories of seepage and Design of weirs and Barrages: Failure of Hydraulic
Structures Founded on Pervious foundations: i) By piping ii) By Direct uplift, Bligh’s
creep theory of seepage flow, Khosla’s theory & concept of flownets, concept of exit
gradient and critical exit gradient, Khosla’s method of independent variable for
determination of pressures and exit gradient for seepage below a weir or a barrage,
necessary corrections, examples.
Module 2:
Hydraulic structures for canals: Canal falls – necessity, locations, types and
description of Ogee fall, Trapezoidal-notch fall, Syphon well drop. Examples.
Cross-Drainage Works: Necessity, types, selection of a suitable type (Introduction
[10]
only).
Dam (General): Definition, classification of Dams, factors governing selection of type
of dam, selection of suitable site for a dam.
Module 3 :
Earthen Dams: Introduction, Types of Earthen Dams, Methods of Construction, [10]
Causes of failure, Design Criteria, Determination of line of seepage or phreatic line in
Earthen Dam, seepage control in Earthen Dam, Examples.
Module 4 :
[15]
Gravity Dam: Definition, Typical cross- section, Forces acting on Gravity Dam,
Combination of
forces for design, Mode of failure and criteria for structural stability of Gravity Dams, Principal and shear stresses. Elementary profile of a Gravity Dam, Concept of High and low Gravity Dam, Examples.
Text Books:
1 G L Asawa, Irrigation Engineering, Wiley Eastern 2 S K Garg, Irrigation Engineering & Hydraulic Structures, Khanna Publishers. 3 P N Modi, Irrigation Engineering & Hydraulic Structures
Reference Books:
1 J D Zimmerman, Irrigation, John Wiley & Sons 2 Varshney, Gupta & Gupta, Theory and Design of Irrigation Structures, Nem Chand & Bros.
3 Punmia B C & Pande B B Lal, Irrigation Engineering and Water Power Engineering, Laxmi Publications.
ADAMAS UNIVERSITY
B.Tech in Civil Engineering SEMESTER – VIII
EARTHQUAKE ENGINEERING ECE44109 3-0-0 3 Credits
Module 1: Introduction: Definitions of basic problems in dynamics, static versus dynamic loads, different types of dynamic loads, un-damped vibration of SDOF system, natural
frequency and periods of vibration, damping in structure, response to periodic loads, [10]
response to general dynamic load, response of structure subject to gravitational motion, use of Fourier series for periodic forces.
Module 2: Direct determination of frequencies and mode shapes: orthogonality principle, approximate methods for determination of frequencies and mode shapes, modal error of [12] forced vibration of MDOF system, modal analysis, applications to multistoried rigid frames subject to lateral dynamic loads.
Module 3:
Seismological background: Seismicity of a region, earthquake faults and waves, [10] structure of earth, plate tectonics, elastic-rebound theory of earthquake, Richter scale, measurement of ground motion, seismogram.
Module 4: Characterization of ground motion: earthquake response spectra, factors influencing
response spectra, design response spectra for elastic systems, peak ground acceleration, [8]
response spectrum shapes, deformation, pseudo-velocity, pseudo-acceleration response spectra,
peak structural response from the response spectrum, response spectrum characteristics.
Module 5: Deterministic earthquake response: types of earthquake excitation, lumped SDOF
elastic systems, translational excitation, lumped MDOF elastic systems, translational
excitation time history analysis, multistoried buildings with symmetric plans, [12]
multistoried buildings with unsymmetric plans, torsional response of symmetric plan building,
distributed-parameter elastic systems, translational excitation, combining maximum modal
responses using mean square response of a single mode, SRSS and CQCC combination of modal
responses.
Module 6: I. S. code method of seismic analysis: seismic co-efficient method and its limitation, [4] response spectrum method, I. S. code provision for seismic analysis of buildings and
water towers.
Module 7:
Case Study: Review of damages during past earthquakes and remedial measures, [4] seismic design considerations, allowable ductility demand, ductility capacity, reinforcement detailing for members and joints.
Text Books: 1 Structural Dynamics-An introduction to Computer Methods, Roy R. Craig. 2 Dynamics of Structures, Anil K. Chopra, Prentice Hall, India. 3 Dynamics of Structures, Cloguh & Penzien, Tata McGraw Hill, New Delhi 4 Structural Dynamics, John M. Biggs, Tata McGraw Hill, New Delhi 5 Fundamentals of Earthquake Engineering, N. M. Newmarks & E. Rosenblueth, Prentice Hall. 6 Earthquake Design Practice for Building, D. Key, Thomas Telford, London, 1988. 7 Earthquake Engineering, R. L. Wiegel, 2nd Edition, Prentice Hall, London, 1989 Reference Books: 1 Design of Multistoried Buildings for Earthquake Ground Motions, J. A. Blume, Portland Cement
Association, Chicago, 1961. 2 Proceedings on World Conference on Earthquake Engineering, 1956-2000. 3 I. S. codes No. 1893, 4326, 13920. (Latest Editions).
ADAMAS UNIVERSITY B.Tech in Civil Engineering
SEMESTER – VIII
DESIGN OF TALL BUILDING ECE44111 3-0-0 3 Credits
Module 1: Introduction : Necessity of Tall Buildings, Design Philosophy, Strength and
Stability, Creep, Shrinkage and Temperature Effects, Fire, Foundation Settlement and Soil-Structure Interaction Loadings : Gravity loading, Wind loading, Earthqua Loading, 12 Combination of Loadings.
Module 2: Structural Forms : Braced-Frame Structures, Rigid Frame Structures, In
filled-Frame Structures, Shear Wall Structures, Wall Frame Structures, Tubular
Structures, Core Structures, Floor Systems – Reinforced Concrete : One-Way slab, [18]
Two-way slab, Floor Systems – Steel Framing, One-way Beam System, Two-Way
Beam System, Three-Way Beam System, Composite Steel-Concrete Floor Systems
Module 3: Modeling for Analysis: Approaches to analysis, High-rise behaviour,
modeling for approximate analysis, Modeling for Accurate Analysis. Stability of High-
rise buildings, buckling analysis of Frames. Dynamic Analysis: Dynamic Response to [15]
Wind Loading, Dynamic Response to Earthquake Loading
Module 4: Foundations and foundation-superstructure interaction; Wind/ earthquake
effects and design for ductility; Damping systems; Asymmetric structures and twisting [15]
of frames
Text Books:
1 Tall Building Structures: Analysis and Design Bryan S. Smith and Alex Coull John Wiley &
Sons, Inc, New York, 1991 Designing Tall Buildings Mark Sarkinsian, Routledge, New York, 2012
2 Designing Tall Buildings Mark Sarkinsian, Routledge, New York, 2012
ADAMAS UNIVERSITY B.Tech Civil Engineering
SEMESTER – VIII
FINITE ELEMENTMETHOD ECE43104 3-1-0 4 Credit
Module 1(Boundary value problems and Weighted residual methods):
Introduction, weighted residual forms, weak formulation, Galerkin method, examples of [12]
one, two, and three-dimensional problems, examples of continuum problems.
Module 2 (Variational methods):
Establishment of natural variational principles, approximate solution of differential
equations by Rayleigh-Ritz method, the use of Lagrange multipliers, general variational [8]
principles, least-square method.
Module 3 (Finite Element analysis of one dimensional problems):
One dimensional second order equations, discretisation of domain into elements,
generalised coordinates approach, derivation of elements equations, assembly of
elements equations, imposition of boundary conditions, solution of equations, Cholesky [8]
method, extension of the method to fourth order equations and their solutions, time
dependant problems and their solutions.
Module 4 (Finite Element analysis of two dimensional problems):
Second order equation involving a scalar-valued function, Variational formulation,
Finite element formulation through generalised coordinates approach, Triangular
elements and quadrilateral, Elements matrices and vectors, Assembly of element [10]
matrices, boundary conditions, solution techniques.
Module 5 (Isoparametric formulation):
The concept of mapping, isoparametric formulation, numerical integration, mapping and [12]
its use in mesh generation.
Module 6 (Application to field problems in two dimension): [12]
Equations of elasticity, plane elasticity problems, axis symmetric problems in elasticity,
time dependent problems in elasticity, incompressible fluid flow.
Text Books: 1 Zienkiewicz, O.C., and Morgan, K., Finite Element Approximation, John Wiley & Sons, 1983.
Reddy, J.N., The Finite Element Method for Engineers, John Wiley & Sons, 1995. 2 An Introduction to the Finite Element Method, McGraw Hill, 2006. Huebner, K.H., Thornton,
E.A., and Byrom, T.G. Reference Books: 1 The Finite Element Method for Engineers, John Wiley & Sons, 1995.