GHAZI UNIVERSITY DERA GHAZI KHAN
DEPARTMENT OF PHYSICS
BS PHYSICS 6TH (MORNING)
SESSION 2021-2025 SPRING 2024
Date Sheet
Paper Time:
Date
Day
Paper
June 24, 2024
Monday
Quantum Mechanics – I
June 25, 2024
Tuesday
Mathematical Methods of Physics – II
June 26, 2024
Wednesday
Electromagnetic Theory – II
June 27, 2024
Thursday
Optics
June 28, 2024
Friday
Electronics – II
June 29, 2024
Saturday
Laboratory Optics
June 30, 2024
Sunday
July 1, 2024
Monday
July 2, 2024
Tuesday
July 3, 2024
Wednesday
July 4, 2024
Thursday
July 5, 2024
Friday
1|Page
Max. Marks
Syllabus For Final Term
Subject Name
Syllabus
Remarks
Chapter 1: Fourier Transformation (Complex form, Special form, Riemann Zeta Function,
MCQs = 12, S. Qs = 12, L. Qs = 12
Numerical Problems, Even/ Odd functions, Half Range Sine/ Cosine Series, Fourier Transform along
with its inverse, Fourier Sine Transform along with its inverse, Fourier Cosine Transform along with
its inverse, Formulas Related to Fourier Transform, Parseval’s Identity)
MMP-II
Chapter 2: Matrices (Matrix, Types of Matrices i.e., Column, Row, Rectangular, Square, Diagonal,
Null, Triangular, Scalar, Unit, Idempotent, Periodic, Nilpotent, Symmetric, Skew-Symmetric,
Addition/ Subtraction, Scalar Multiplication, Conjugate of a matrix, Transpose, Properties of
Transpose, Theorems Related to Matrices, Hermitian, Skew-Hermitian, Determinant, Singular, NonSingular, Eigen Values & Eigen Vector, Unitary Matrix, Similarity Matrix (A), Orthogonal Matrix,
Diagonalization, Finding Eigen Vector R, Tensor)
MCQs = 12, S. Qs = 12, L. Qs = 12
Chapter 1: Introduction (Coulomb’s Law, Ohm’s Law, Electromagnetic Induction, Faraday’s Law &
Induced EMF, Differential Form of Faraday’s Law, Integral Form of Faraday’s Law, Lenz’s Law, SelfInduction, Self-Inductance of a Solenoid, Mutual-Induction, Energy Stored in a Magnetic Field,
Maxwell’s Equations, Generalized Form of Ampere’s Law, Modification of Ampere’s Law, Prove that
EMT-II
∂E
Jd = ϵo ∂t )
Chapter 2: Electrodynamics (Poynting Theorem, Newton’s 3rd law in Electrodynamics, Equation of
Continuity, Maxwell’s Stress Tensor, Conservation of Angular momentum)
Chapter 3: Wave Equation (Wave Equation in 1-D, Sinusoidal waves, Complex form of Wave,
Boundary Conditions)
Optics, Aberrations, Coma, Astigmatism, Total Internal Reflection, Optical Fiber, Exercise)
Chapter 2: Wavefront Splitting Interferometer (Introduction Theory, Young’s DS Experiment,
Interference in Thin Films, Newton Rings)
Chapter 2: Wave Splitting Interferometer (Diffraction of Light, Diffraction due to Narrow Slits,
= 12
OPTICS
Diffraction due to Diffraction Grating, Michelson Interferometer, Polarization, Fermat’s Principle
(Law of Reflection, Law of Refraction), Brewster’s Law)
Chapter 3: Waves (Wave Motion, Its Types, Standing Waves, Beats, Beat Frequency, Uses)
MCQs = 12, S. Qs = 12, L. Qs
Chapter 1: Introduction to Optics (Historical Overview, Optics in Physics, Laws of Geometrical
Chapter 1: Power Amplifiers (Power Amplifiers, Classification, Class A, Class B, Class AB, Class
C, Numerical Problem 1)
Chapter 2: The JFET (FET, MOSFET)
Chapter 3: Operational Amplifiers (OP-AMP, Characteristics, Symbolic Diagrams, Negative
ELECTRONICS-II
Chapter 4: Oscillators (Oscillators, The Feedback Oscillators, The RC Phase Shift Oscillator, The
Colpitts Oscillator, The Hartley Oscillator, Difference between Ideal and Practical OP-AMP, Noise,
3 Numerical Problems)
Chapter 5: Active Filters (Introduction, Categories of Filters, Basic Filter Response {Low Pass, High
Pass, Band Pass, Band Stop}, Detail of Active Filters {Active Low Pass, Active High Pass, Active
Band Pass, Active Band Stop}, Mathematical Treatment)
Chapter 6: Voltage Regulators (Line Regulation, Load Regulation, Numerical Problems related to
Line & Load Regulation)
2|Page
MCQ’s from Chapter 1,2,3,4,5,6
Generator, A Zero Level Generator, Peak Detector, Voltage Follower)
S. Qs from Chapter 1,2,3,4,5,6
Differentiator, The Integrator, The Sign Changer & Multiplier, The Comparator, Square Wave
L. Qs from Chapter 4,5,6
Feedback, Inverting Amplifiers, Non-Inverting Amplifiers, The Summing Operation, The
Chapter 1: Origin of Quantum Mechanics (Historical Overview, Diff. b/w Classical & Quantum
Mechanics, Particle Aspect of Radiation, Blackbody Radiation, The Photoelectric Effect, Compton
Effect, Pair Production & Annihilation of Matter, Matter Waves, The Bohr’s Model _ Old Quantum
Theory, The DS Experiment, Heisenberg Uncertainty Principle, Matter Waves & Wave Packets,
Wavefunction _ Another Marvel, The true Shape of Atom _ Cloudy, Exercise Questions)
Chapter 2: Mathematical Tools of Quantum Mechanics (Complex Numbers, Equation of Travelling
Equation for a Single Particle, Commutation Relation, Exercise Questions)
QM-I
Chapter 3: Fundamentals of Quantum Mechanics (Postulates of Quantum Mechanics, How
Measurement Disturb the System, Uncertainty Relation b/w two Operators, Exercise Questions)
Chapter 4: One Dimensional Problems (Properties of 1-D problems, The Free Particle (Continuous
State), The Potential Step, The Potential Barrier, The Infinite Square Well Potential, Zero Point
Energy, Exercise Questions)
MCQ’s From Chapter 1,2,3,4,5
Function & Eigen Values, The Schrodinger Wave Equation, The Schrodinger Time Independent Wave
L. Qs & S. Qs from Chapter 4,5
Plane Wave, Linear Vector Space, Hilbert’s Space H, Dirac Notation, Observable, Operators, Eigen
Chapter 5: Angular Momentum (Linear Momentum, Orbital Angular Momentum in Cartesian
system, Orbital Angular Momentum in Spherical system, Commutation Relations, General Formulism
of Angular Momentum, Eigenvalues and Eigen States of total angular momentum, Raising and
Lowering Operators, Geometrical representation of angular momentum, Spin angular momentum,
Exercise Questions)
Light, Critical Angle, Numerical Problems, Types of Lenses (Convex & Concave), Lens Terminology
(Focus Point, Principal Axis, The Young’s DS Experiment, Optical Center, Focal Length, Radius of
Curvature, Image Location by Lens Equation, Polarization, Polarizer, Methods of Polarization,
Tindal Effect, Interference of Light, Diffraction of Light.
Experiments:
i.
Einstein’s Photoelectric Effect.
ii.
To determine the wavelength of used light by a given radius of curvature of lens.
iii.
To measure the wavelength of Sodium light by using Michelson Interferometer.
Credit Hours Detail:
I.
3 (3 – 0): Maximum Marks: 60
II.
2 (0 – 2): Maximum Marks: 40
3|Page
07 marks
LABORATORY OPTICS
S. Qs (2 x 7 = 14) L. Q (2 x 6 = 12),
Reflection of Light, Law of Refraction, Snell’s Law, Refraction of Light, Total Internal Reflection of
Practical Notebook = 07, Viva Voce =
Theory:
Paper Pattern For Final Term
Subject Name
Paper Pattern
Maximum Marks
Multiple Choice Questions: 12 Questions x 1 Mark = 12 Marks
MMP-II
Short Questions: 4 Questions x 3 Marks = 12 Marks
36
Long Questions: 2 Questions x 6 Marks = 12 Marks
Multiple Choice Questions: 12 Questions x 1 Mark = 12 Marks
EMT-II
Short Questions: 4 Questions x 3 Marks = 12 Marks
36
Long Questions: 2 Questions x 6 Marks = 12 Marks
Multiple Choice Questions: 12 Questions x 1 Mark = 12 Marks
OPTICS
Short Questions: 4 Questions x 3 Marks = 12 Marks
36
Long Questions: 2 Questions x 6 Marks = 12 Marks
Multiple Choice Questions: 12 Questions x 1 Mark = 12 Marks
ELECTRONICS-II
Short Questions: 4 Questions x 3 Marks = 12 Marks
36
Long Questions: 2 Questions x 6 Marks = 12 Marks
Multiple Choice Questions: 12 Questions x 1 Mark = 12 Marks
QM-I
Short Questions: 4 Questions x 3 Marks = 12 Marks
36
Long Questions: 2 Questions x 6 Marks = 12 Marks
Short Questions: 7 Questions x 2 Marks = 14 Marks
LABORATORY OPTICS
Long Questions: 2 Questions x 6 Marks = 12 Marks
Viva Marks: 07 Marks
Practical Notebook Marks: 07 Marks
4|Page
40
Important Questions Related to the Paper
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5|Page