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Semester 1:

Calculus
Physics I
Chemistry
Introduction to Aerospace Engineering
Basic Electrical Engineering
Communication Skills
Physics Lab
Basic Engineering Lab

Semester 2:

Vector Calculus and Differential Equations
Physics II
Materials Science and Metallurgy
Basic Electronics Engineering
Engineering Graphics
Basic Electrical and Electronics Engineering Lab
Computer Programming and Applications
Chemistry Lab

Semester 3:

Linear Algebra, Numerical Analysis and Transforms
Analog Electronic Circuit
Semi Conducter Devices
Signal and Systems
Electromagnetic and Wave Propagation
Introduction to Social Sceince and Ethics
Analog Electronic Circuit Lab
E‐CAD Lab
C Programming Lab

IIST B.Tech Avionics syllabus
SEMESTER I
MA111 CALCULUS
Sequence and Series of Real Numbers: sequence – convergence – limit of sequence – nondecreasing
sequence theorem – sandwich theorem (applications) – L'Hopital's rule – infinite
series – convergence – geometric series – tests of convergence (nth term test, integral test,
comparison test, ratio and root test) – alternating series and conditional convergence – power
series.
Differential Calculus: functions of one variable – limits, continuity and derivatives – Taylor’s
theorem – applications of derivatives – curvature and asymptotes – functions of two variables –
limits and continuity – partial derivatives – differentiability, linearization and differentials –
extremum of functions – Lagrange multipliers.
Integral Calculus: lower and upper integral – Riemann integral and its properties – the
fundamental theorem of integral calculus – mean value theorems – differentiation under
integral sign – numerical Integration‐ double and triple integrals – change of variable in double
integrals – polar and spherical transforms – Jacobian of transformations.
Textbooks:
1. Stewart, J., Calculus: Early Transcendentals, 5th ed., Brooks/Cole (2007).
2. Jain, R. K. and Iyengar, S. R. K., Advanced Engineering Mathematics, Narosa (2005).
References:
1. Greenberg, M. D., Advanced Engineering Mathematics, Pearson Education (2007).
2. James, G., Advanced Modern Engineering Mathematics, Pearson Education (2004).
3. Kreyszig, E., Advanced Engineering Mathematics, 9th ed., John Wiley (2005).
4. Thomas, G. B. and Finney, R. L., Calculus and Analytic Geometry, 9th ed., Pearson
Education (2003).
PH111 PHYSICS I
Vectors and Kinematics: vectors, linear independence, completeness, basis, dimensionality,
inner products, orthogonality – displacement, derivatives of a vector, velocity, acceleration –
kinematic equations – motion in plane polar coordinates.
Newtonian Mechanics: momentum, force, Newton's laws, applications – dynamics of a system
of particles, conservation of momentum, impulse, center of mass.
Work and Energy: integration of the equation of motion – work energy theorem, applications –
gradient operator – potential energy and force, interpretation – energy diagrams – nonconservative
forces – law of conservation of energy – power – particle collisions.
Rotations: angular momentum – torque on a single particle – moment of inertia – angular
momentum of a system of particles – pure rotation about an axis – the physical pendulum.
Central Force Motion: central force motion of two bodies – relative coordinates – reduction to
one dimensional problem – spherical symmetry and conservation of angular momentum,
consequences – planetary motion and Kepler's laws.
Harmonic Oscillator: 1‐D harmonic oscillator – damped and forced harmonic oscillators –
solutions.
Thermodynamics: Zeroth law of thermodynamics – temperature – measurement and scales –
thermal expansion – heat and work – First law of thermodynamics – heat transfer mechanisms –
irreversible processes and entropy, change in entropy – Second law of thermodynamics – heat
engines.
Textbooks:
1. Kleppner, D. and Kolenkow, R. J., An Introduction to Mechanics, Cambridge Univ. Press
(2010).
2. Zemansky, M. W., Heat and Thermodynamics, McGraw‐Hill (1997).
References:
1. Serway, R. A. and Jewett, J. W., Principles of Physics: A Calculus Based Text, 4th ed.,
Thomson Brooks/Cole (2006).
2. Halliday, D., Resnick, R., and Walker, J., Fundamentals of Physics, 6th ed., John Wiley
(2001).
3. Young, H. D., Freedman, R. A., Sundin, T. R., and Ford, A. L., Sears and Zemansky's
University Physics, 11th ed., Pearson Education (2004).
CH111 CHEMISTRY
Chemical Kinetics: basic concepts of chemical kinetics – reaction rate, rate law, reaction
stoichiometry, empirical rate equations, elementary reactions, order and molecularity –
complex reactions, reversible reactions, chain reactions, reaction mechanisms – effect of
temperature on reaction rates, Arrhenius equation – catalysis, different types of catalysts,
enzyme catalysis, inhibition.
Electrochemical Systems: introduction to electrochemistry, different types of electrodes –
standard hydrogen electrode (SHE) – half cell potential and its significance – electromotive force
– Gibb’s free energy and cell potential – Nernst equation – electrochemical series, classification
of electrochemical cells.
Corrosion Science: definitions – causes and consequences – significance of corrosion control –
classification of corrosion – theories of corrosion – chemical corrosion – fundamental
components of corrosion cell – electrochemical corrosion – galvanic cell corrosion – factors
influencing corrosion – different forms of corrosion – corrosion control.
Spectroscopy: fundamentals of spectroscopy – interaction of matter with light – electronic
spectroscopy – vibrational spectroscopy – other spectroscopic techniques.
Propellants: classification of propellants – performance of propellants and thermochemistry –
liquid propellants – oxidizers and fuels – solid propellants – burning rate – composite solid
propellants, oxidizers, polymer fuel binders and other ingredients – propellant processing.
Textbook:
• Gopalan, R., Vengappya, D., and Nagarajan, S., Textbook of Engineering Chemistry, Vikas
Publishing House (2010).
References:
1. Atkins, P. and de Paula, J., Atkins' Physical Chemistry, 8th ed., Oxford Univ. Press (2007).
2. Laidler, K. J., Chemical Kinetics, 3rd ed., Pearson Education (2005).
3. Kemp, W., Organic Spectroscopy, Palgrave Foundations (1991).
4. Revie, R. W. and Uhlig, H. H., Corrosion and Corrosion Control – An Introduction to
Corrosion Science and Engineering, 4th ed., Wiley (2008).
5. Bockris, J. O'M. and Reddy, A. K. N., Modern Electrochemistry 1: Ionics, Springer (1998).
AE111 BASIC MECHANICAL ENGINEERING
Introduction to mechanical engineering – role of mechanical engineers – engineering
thermodynamics; basic laws and thermal engineering applications – introduction to engineering
materials and manufacturing processes – introduction to mechanisms – introduction to
measurement systems and data analysis.
Textbooks:
1. Agrawal, B. and Agrawal, C. M., Basic Mechanical Engineering, Wiley India (2008).
2. Lecture Notes.
References:
1. Shanmugham, G., Introduction to Mechanical Engineering, Tata McGraw‐Hill (2007).
2. Çengel, Y. A. and Boles, M. A., Thermodynamics ‐ An Engineering Approach, 5th ed., Tata
McGraw‐Hill (2006).
3. Kalpakjian, S. and Schmidt, S. R., Manufacturing Engineering and Technology, 4th ed.,
Prentice Hall (2001).
4. Holman, J. P., Experimental Methods for Engineers, 7th ed., Tata McGraw‐Hill (2004).
5. Sawhney, G. S. and Schmidt, S. R., Fundamentals of Mechanical Engineering:
Thermodynamics, Mechanics and Strength of Materials, Prentice Hall of India (2001).
AV111 BASIC ELECTRICAL ENGINEERING
Circuit analysis, Kirchoff's law, mesh and nodal methods – transient analysis for RLC circuit –
alternating current theory – resonance, Q factor and power measurement by two wattmeter
circuits – network theorems – magnetic circuit, principles of magnetic circuits – DC and AC
excitation – hysteresis loop, BH curve – losses, energy, and force production – Introduction to
electrical machines: classification – operating principle – applications.
Textbooks:
1. Hughes, E., Electrical and Electronic Technology, Pearson Education (2002).
2. Deltoro, V., Principles of Electrical Engineering, 2nd ed., Prentice Hall (1986).
References:
1. Mittle, V. N. and Mittal, A., Basic Electrical Engineering, 2nd ed., Tata Mcgraw‐Hill (2006).
2. Cotton, H., Principles of Electrical Engineering, Sir Isaac Pitman & Sons (1967).
3. Hayt, W. H. and Kemmerley, J. E., Engineering Circuit Analysis, 4th ed., McGraw‐Hill
(1986).
4. Murthy, K. V. V. and Kamath, M. S., Basic Circuit Analysis, Jaico Publishing (1998).
5. Kothari, D. P. and Nagrath, I. J., Theory and Problems of Basic Electrical Engineering,
Prentice Hall (2000).
6. Pal, M. A., Introduction to Electrical Circuits and Machines, Affiliated East–West Press
(1975).
HS111 COMMUNICATION SKILLS
Functional English: conversation skills – asking questions, requests, doubts, engage in
conversation – different types of communication‐verbal and non‐verbal, body language.
Teaching Grammar: grammar games, exercise.
Teaching Vocabulary: Language games, exercise.
References:
1. Garner, A., Conversationally Speaking: Tested New Ways to Increase Your Personal and
Social Effectiveness, McGraw‐Hill (1997).
2. Bechtle, M., Confident Conversation: How to Communicate Successfully in Any
Situation, Revell (2008).
3. Brown, S. and Smith, D., Active Listening with Speaking, Cambridge Univ. Press (2007).
PH131 PHYSICS LAB I
• Mechanics, Thermodynamics, and Oscillations
o Ratio of specific heats
o Mechanical equivalent of heat
o Moment of inertia and angular acceleration with Cobra3
o Damped driven harmonic oscillator
o Waves
o Modulus of elasticity
o Torsional vibrations and torsion modulus
o Characteristics of a solar cell
o Surface tension: the ring method
o Projectile motion
o Estimation of Celsius equivalent of absolute zero
o Measurement of g using free fall
CH131 CHEMISTRY LAB
• Determination of total hardness of water
• The Nernst equation
• Estimation of the amount of phosphoric acid in a soft drinks
• Potentiometry
• Conductometry
• Validation of Ostwald’s dilution law and solubility product
• Determination of chloride content in a water sample
• Estimation of iron using spectrophotometer
• Spectrophotometric determination of two‐components in a mixture
• Kinetics of acid hydrolysis of ester
• Kinetics of sucrose inversion
• Bomb calorimetry

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