Syllabus
Session 2025-26 onwards
An Autonomous Institute
MEERUT INSTITUTE OF ENGINEERING & TECHNOLOGY
NH-58, Delhi-Roorkee Highway, Baghpat Road, Meerut – 250 005. UP (India)
0
, B.Tech. First Year, Semester-II
(Common for all branches except Biotechnology)
Evaluation Scheme
Category
End
Type
S.No. Subject MID Term Semester
Subject Name Period Total Credit
Code Examination Examination
(ESE)
L T P CT TA CT+TA TE/PE MTE+ESE Cr
MAS201/ Engineering Physics /
1.
MAS202 Engineering Chemistry T BS 3 0 0 20 10 30 70 100 3
2. MAS203 Mathematics-II T BS 3 1 0 20 10 30 70 100 4
Trends in Electrical
and Mechanical
MEM201/
3. Engineering / Trends
MEC201
in Electronics T ES 3 1 0 20 10 30 70 100 4
Engineering
4. MSE201 Emerging Trends- 2
T SE 2 0 0 20 10 30 70 100 2
Engineering Physics
MAS251/ lab/
5..
MAS252 Engineering Chemistry P BS 0 0 2 30 20 50 50 100 1
Lab
Trends in Electrical
and Mechanical
MEM251/
6 Engineering Lab/
MEC251
Trends in Electronics P ES 0 0 2 30 20 50 50 100 1
Engineering Lab
Python Programming
7 MPP251 P ES 0 1 4 50 20 70 30 100 3
Lab
8 MAE251 Soft Skill-2
P AE 0 1 2 50 20 70 30 100 2
MSE251/ Digital Workshop/
9
252 ACAD Lab P SE 0 0 2 30 20 50 50 100 1
11 3 10 410 490 900 21
Abbreviation Used:
BS: Basic Science Course
ES: Engineering Science Course
SE: Skill Enhancement Course
AE: Ability Enhancement
TA: Teacher’s Assessment
CT: Class Test
MTE: Mid Term Examination
ESE: End Semester Examination
2
, MAS201 Engineering Physics LTP:3-0-0 Credit:3
The students will be able to BL
CO 1 Understand the concepts of classical and relativistic mechanics. K2
Understand the fundamental concepts of quantum mechanics for basic
CO 2 K2
physical problems.
Apply the concept of Interference and diffraction to determine the optical
CO 3 K3
properties of materials.
CO 4 Describe the concepts and applications of fiber optics and LASER. K2
Understand the properties and applications of superconducting and Nano
CO 5 K2
materials.
Unit Topic Hrs
Relativistic Mechanics- Inertial and Non-inertial frames of References,
Galilean Transformation Equations, Michelson-Morley Experiment,
I Postulates of Special Theory of Relativity, Lorentz transformation equations, 06
Length Contraction, Time Dilation, Relativistic mass (Qualitative), Einstein’s
Mass – Energy relation. Mass less Particle.
Quantum Mechanics- Inadequacies of Classical Mechanics, Planck’s theory
of black body radiation (Qualitative), Compton effect, de-Broglie concept of
matter waves, Wave function & its Physical interpretation, Expectation value,
II 08
Time-dependent and time-independent Schrodinger wave equations, Particle
in a one-Dimensional box, Introduction of quantum computing,
difference between classical and quantum computing.
Wave Optics- Coherent Sources, Difference between thin film and wedge
shaped film, Interference in uniform thin films, Wedge shaped thin film
(qualitative), fringe width in wedge shape thin film. Newton’s Rings and its
III 07
applications.
Introduction to diffraction, Difference between Fraunhofer and Fresnel
diffraction, Fraunhofer diffraction due to single slit, Diffraction grating.
Laser & Fibre Optics –
Laser: Introduction of LASER and Characteristics of LASER beam,
Absorption of radiation, Spontaneous and stimulated emission of radiation,
Population inversion, Einstein’s Coefficients, Principles of laser action, Solid
IV 07
state Laser (Ruby laser), Semi-Conductor LASER, applications of LASER.
Fibre Optics: Principle and construction of optical fibre, Acceptance angle,
Numerical aperture, Acceptance cone, Normalized frequency & number of
modes, Types of optical fibre, Attenuation, Application of fibre.
3
Session 2025-26 onwards
An Autonomous Institute
MEERUT INSTITUTE OF ENGINEERING & TECHNOLOGY
NH-58, Delhi-Roorkee Highway, Baghpat Road, Meerut – 250 005. UP (India)
0
, B.Tech. First Year, Semester-II
(Common for all branches except Biotechnology)
Evaluation Scheme
Category
End
Type
S.No. Subject MID Term Semester
Subject Name Period Total Credit
Code Examination Examination
(ESE)
L T P CT TA CT+TA TE/PE MTE+ESE Cr
MAS201/ Engineering Physics /
1.
MAS202 Engineering Chemistry T BS 3 0 0 20 10 30 70 100 3
2. MAS203 Mathematics-II T BS 3 1 0 20 10 30 70 100 4
Trends in Electrical
and Mechanical
MEM201/
3. Engineering / Trends
MEC201
in Electronics T ES 3 1 0 20 10 30 70 100 4
Engineering
4. MSE201 Emerging Trends- 2
T SE 2 0 0 20 10 30 70 100 2
Engineering Physics
MAS251/ lab/
5..
MAS252 Engineering Chemistry P BS 0 0 2 30 20 50 50 100 1
Lab
Trends in Electrical
and Mechanical
MEM251/
6 Engineering Lab/
MEC251
Trends in Electronics P ES 0 0 2 30 20 50 50 100 1
Engineering Lab
Python Programming
7 MPP251 P ES 0 1 4 50 20 70 30 100 3
Lab
8 MAE251 Soft Skill-2
P AE 0 1 2 50 20 70 30 100 2
MSE251/ Digital Workshop/
9
252 ACAD Lab P SE 0 0 2 30 20 50 50 100 1
11 3 10 410 490 900 21
Abbreviation Used:
BS: Basic Science Course
ES: Engineering Science Course
SE: Skill Enhancement Course
AE: Ability Enhancement
TA: Teacher’s Assessment
CT: Class Test
MTE: Mid Term Examination
ESE: End Semester Examination
2
, MAS201 Engineering Physics LTP:3-0-0 Credit:3
The students will be able to BL
CO 1 Understand the concepts of classical and relativistic mechanics. K2
Understand the fundamental concepts of quantum mechanics for basic
CO 2 K2
physical problems.
Apply the concept of Interference and diffraction to determine the optical
CO 3 K3
properties of materials.
CO 4 Describe the concepts and applications of fiber optics and LASER. K2
Understand the properties and applications of superconducting and Nano
CO 5 K2
materials.
Unit Topic Hrs
Relativistic Mechanics- Inertial and Non-inertial frames of References,
Galilean Transformation Equations, Michelson-Morley Experiment,
I Postulates of Special Theory of Relativity, Lorentz transformation equations, 06
Length Contraction, Time Dilation, Relativistic mass (Qualitative), Einstein’s
Mass – Energy relation. Mass less Particle.
Quantum Mechanics- Inadequacies of Classical Mechanics, Planck’s theory
of black body radiation (Qualitative), Compton effect, de-Broglie concept of
matter waves, Wave function & its Physical interpretation, Expectation value,
II 08
Time-dependent and time-independent Schrodinger wave equations, Particle
in a one-Dimensional box, Introduction of quantum computing,
difference between classical and quantum computing.
Wave Optics- Coherent Sources, Difference between thin film and wedge
shaped film, Interference in uniform thin films, Wedge shaped thin film
(qualitative), fringe width in wedge shape thin film. Newton’s Rings and its
III 07
applications.
Introduction to diffraction, Difference between Fraunhofer and Fresnel
diffraction, Fraunhofer diffraction due to single slit, Diffraction grating.
Laser & Fibre Optics –
Laser: Introduction of LASER and Characteristics of LASER beam,
Absorption of radiation, Spontaneous and stimulated emission of radiation,
Population inversion, Einstein’s Coefficients, Principles of laser action, Solid
IV 07
state Laser (Ruby laser), Semi-Conductor LASER, applications of LASER.
Fibre Optics: Principle and construction of optical fibre, Acceptance angle,
Numerical aperture, Acceptance cone, Normalized frequency & number of
modes, Types of optical fibre, Attenuation, Application of fibre.
3
