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Lesson Plan for Session 2017-18
Name of the Teacher: Dr. A.C. Katoch, Associate Professor in Physics
Class and Section: B.Sc. I (IInd
Sem.)
Subject: Properties of Matter and Kinetic Theory of Gases (Paper-III (PH-201))
Week Date Topic/s to be covered
1
01.01.18 Rotation of rigid body
02.01.18 Moment of inertial, Torque, angular momentum
03.01.18 Kinetic Energy of rotation. Theorem of perpendicular and parallel axes (with
proof)
2
08.01.18 Moment of inertia of solid sphere, hollow sphere
09.01.18 Moment of inertia of spherical shell, solid cylinder
10.01.18 Moment of inertia of hollow cylinder and solid bar of rectangular cross–
section, Fly wheel
3
15.01.17 Moment of inertia of an irregular body
16.01.18 Acceleration of a body rolling down on an inclined plane
17.01.18 Numericals of Unit - I
4
22.01.18 Holiday (Basant Panchami)
23.01.18 Test of Unit - I
24.01.18 Holiday (Sir Chhotu Ram Jayanti)
5
29.01.17 Elasticity, Stress and Strain, Hook’s law
30.01.18 Elastic constant and their relations
31.01.18 Holiday (Guru Ravidas Jayanti)
6
05.02.18 Poisson’s ratio
06.02.18 Torsion of cylinder and twisting couple
07.02.18 Determination of coefficient of modulus of rigidity for the material of wire
by Maxwell’s needle
7
12.02.18 Bending of beam (Bending moment and its magnitude)
13.02.18 Holiday (Mahashivratri)
14.02.18 Cantilever and Centrally loaded beam
8 19.02.18
Determination of Young’s modulus for the material of the beam and Elastic
constants for the material of the wire by Searle’s method
20.02.18 Determination of Young’s modulus for the material of the beam and Elastic
constants for the material of the wire by Searle’s method
21.02.18 Determination of Young’s modulus for the material of the beam and Elastic
constants for the material of the wire by Searle’s method
9
26.02.18 Numericals of Unit - II
27.02.18 Assumption of Kinetic theory of gases, pressure of an ideal gas
28.02.18 University Vacation-I
10
5.03.18 Pressure of an ideal gas (with derivation)
6.03.18 Kinetic interpretation of Temperature
7.03.18 Ideal Gas equation
11
12.03.18 Degree of freedom, Law of equipartition of energy
13.03.18 Application of law of equipartition of energy for specific heat of gases
14.03.18 Law of equipartition of energy and its application for Real gases
12
19.03.18 Vander wall’s equation
20.03.18 Brownian motion( Qualitative)
21.03.18 Numericals of Unit - III
13
26.03.18 Maxwell’s distribution of speed
27.03.18 Maxwell’s distribution of velocities
28.03.18 Experimental verification of Maxwell’s law of speed distribution
14
2.04.18 Most probable speed, average and r.m.s. speed
3.04.18 Most probable speed, average and r.m.s. speed
4.04.18 Mean free path
15
9.04.18 Transport of energy and momentum
10.04.18 Diffusion of gases
11.04.18 Numericals of Unit - IV
16
16.04.18 Queries of Students and Revision of Unit-I
17.04.18 Queries of Students and Revision of Unit-II
18.04.18 Holiday (Parshuram Jayanti)
17
23.04.18 Queries of Students and Revision of Unit-III
24.04.18 Queries of Students and Revision of Unit-IV
25.04.18 Assessment Test
Lesson Plan for Session 2017-18
Name of the Teacher: Dr. A.C. Katoch, Associate Professor in Physics
Class and Section: B.Sc. III (VIth
Sem.)
Subject: Atomic and Molecular Spectroscopy (Paper-XII (PH-602))
Week Date Topic/s to be covered
1
04.01.18 Introduction of early observations
05.01.18 Emission and absorption spectra, atomic spectra, wave number
06.01.18 spectrum of Hydrogen atom in Balmer series, Bohr atomic model(Bohr’s
postulates)
2
11.01.18
spectra of Hydrogen atom , explanation of spectral series in Hydrogen atom,
un-quantized states and continuous spectra, spectral series in absorption
spectra
12.01.18 effect of nuclear motion on line spectra (correction of finite nuclear mass)
13.01.18 variation in Rydberg constant due to finite mass, short comings of Bohr’s
theory
3
18.01.18 Wilson sommerfeld quantization rule, de-Broglie interpretation of Bohr
quantization law, Bohr’s corresponding principle
19.01.18 Sommerfeld’s extension of Bohr’s model, Sommerfeld relativistic correction
20.01.18 Short comings of Bohr-Sommerfeld theory, Vector atom model, space
quantization, electron spin
4
25.01.18 coupling of orbital and spin angular momentum
26.01.18 Holiday (Republic Day)
27.01.18 spectroscopic terms and their notation, quantum numbers associated with
vector atom model, transition probability and selection rules
5
01.02.18 Orbital magnetic dipole moment (Bohr magneton)
02.02.18 Test of Unit - I
03.02.18 behavior of magnetic dipole in external magnetic field, Larmors’ precession
and theorem
6 08.02.18
Penetrating and Non-penetrating orbits, Penetrating orbits on the classical
model
09.02.18 Penetrating orbits on the classical model; Quantum defect
10.02.18 Holiday (Maharishi Dayanand Saraswati Jayanti)
7
15.02.18 spin orbit interaction energy of the single valance electron
16.02.18 spin orbit interaction for penetrating and non-penetrating orbits, quantum
mechanical relativity correction
17.02.18 Hydrogen fine spectra
8
22.02.18 Main features of Alkali Spectra and their theoretical interpretation, term
series and limits
23.02.18 Rydeburg-Ritze combination principle, Absorption spectra of Alkali atoms
24.02.18 observed doublet fine structure in the spectra of alkali metals
and its Interpretation
9
01.03.18
University Vacation-I 02.03.18
03.03.18
10
08.03.18 Intensity rules for doublets, comparison of Alkali spectra and Hydrogen
spectrum
09.03.18 Essential features of spectra of Alkaline-earth elements, Vector model for
two valance electron atom
10.03.18 application of spectra, Coupling Schemes: LS or Russell – Saunders
Coupling Scheme and JJ coupling scheme
11
15.03.18 Interaction energy in L-S coupling (sp, pd configuration)
16.03.18 Lande interval rule, Pauli principal and periodic classification of the
elements
17.03.18 Interaction energy in JJ Coupling (sp, pd configuration), equivalent and non-
equivalent electrons
12
22.03.18 Two valance electron system-spectral terms of non-equivalent and equivalent
electrons
23.03.18 Holiday (Shaheedi Diwas)
24.03.18 Hyperfine structure of spectral lines and its origin; isotope effect, nuclear
spin
13
29.03.18 Holiday (Mahavir Jayanti)
30.03.18 Zeeman Effect (normal and Anomalous),Experimental set-up for studying
Zeeman effect
31.03.18 Explanation of normal Zeeman effect(classical and quantum mechanical)
14
05.04.18 Explanation of anomalous Zeeman effect(Lande g-factor), Zeeman pattern of
D1 and D2 lines of Na atom
06.04.18 Paschen-Back effect of a single valence electron system
07.04.18 Weak field Stark effect of Hydrogen atom
15
12.04.18 General Considerations, Electronic States of Diatomic Molecules, Rotational
Spectra (Far IR and Microwave Region), Vibrational Spectra (IR Region)
13.04.18 Rotator Model of Diatomic Molecule
14.04.18 Holiday (Dr. Ambedkar Jayanti)
16
19.04.18 Raman Effect, Electronic Spectra
20.04.18 Queries of Students and Revision of Unit-I
21.04.18 Queries of Students and Revision of Unit-II
17
26.04.18 Queries of Students and Revision of Unit-III
27.04.18 Queries of Students and Revision of Unit-IV
28.04.18 Assessment Test
Lesson Plan for Session 2017-18
Name of the Teacher: Dr. A.K. Tomar, Assistant Professor in Physics
Class and Section: B.Sc. I (IInd
Sem.)
Subject: Semiconductor Devices (Paper-IV (PH-202))
Week Date Topic/s to be covered
1
04.01.18 Energy bands in solids
05.01.18 Energy bands in solids
06.01.18 Intrinsic and extrinsic semiconductors
2
11.01.18 carrier mobility and electrical resistivity of semiconductors
12.01.18 Hall effect
13.01.18 Hall effect
3
18.01.18 p-n junction
19.01.18 p-n junction diode and their characteristics
20.01.18 Zener and Avalanche breakdown, Zener diode
4
25.01.18 Zener diode as a voltage regulator. Light emitting diodes (LED)
26.01.18 Holiday (Republic Day)
27.01.18 Photoconduction in semiconductors, Photodiode
5
01.02.18 Solar Cell
02.02.18 p-n junction as a rectifier, half wave
03.02.18 full wave rectifiers
6
08.02.18 filters (series inductor)
09.02.18 shunt capacitance, L-section or choke Filter Circuit
10.02.18 Holiday (Maharishi Dayanand Saraswati Jayanti)
7
15.02.18 Π and R.C. filter circuits, Junction transistors
16.02.18 Working of NPN and PNP transistors, Three configurations of transistor (C-
B, C-E, C-C modes)
17.02.18 Common base characteristics of transistor
8
22.02.18 Test of Unit - I
23.02.18 common emitter and common collector characteristics of transistor
24.02.18 Constants of a transistor and their relation
9
01.03.18
University Vacation-I 02.03.18
03.03.18
10
08.03.18 Advantages and disadvantages of C-E configuration
09.03.18 D.C. load line .Transistor biasing
10.03.18 various methods of transistor biasing and stabilization
11
15.03.18 various methods of transistor biasing and stabilization
16.03.18 Amplifiers, Classification of amplifiers
17.03.18 common base and common emitter amplifiers
12
22.03.18 coupling of amplifiers, various methods of coupling
23.03.18 Holiday (Shaheedi Diwas)
24.03.18 Resistance- Capacitance (RC) coupled amplifier
13
29.03.18 Holiday (Mahavir Jayanti)
30.03.18 Feedback in amplifiers, advantages of negative feedback
31.03.18 Test of Unit - III
14
05.04.18 Emitter follower, distortion in amplifiers
06.04.18 Oscillators, Principle of oscillation
07.04.18 classification of oscillators, Condition for self sustained oscillation
15
12.04.18 Barkhausen criterion for oscillation, Tuned collector common emitter
oscillator
13.04.18 Hartley oscillator
14.04.18 Holiday (Dr. Ambedkar Jayanti)
16
19.04.18 C.R.O. (Principle and Working)
20.04.18 Queries of Students and Revision of Unit-I
21.04.18 Queries of Students and Revision of Unit-II
17
26.04.18 Queries of Students and Revision of Unit-III
27.04.18 Queries of Students and Revision of Unit-IV
28.04.18 Assessment Test
Lesson Plan for Session 2017-18
Name of the Teacher: Dr. A.K. Tomar, Assistant Professor in Physics
Class and Section: B.Sc. III (VIth
Sem.)
Subject: Solid State & Nano Physics (Paper-XI (PH-601))
Week Date Topic/s to be covered
1
01.01.18 Introduction to Solid State Physics, Crystalline and Glassy Forms
02.01.18 liquid crystals
03.01.18 Crystal structure, periodicity, lattice and basis, crystal translational vectors
and axes, Unit cell and Primitive Cell, Winger Seitz primitive Cell
2
08.01.18 symmetry operations for a two dimensional crystal
09.01.18 Bravais lattices in two and three dimensions
10.01.18 Crystal planes and Miller indices
3
15.01.17 Crystal planes and Miller indices
16.01.18 Crystal planes and Miller indices
17.01.18 Crystal planes and Miller indices, Interplaner spacing
4
22.01.18 Holiday (Basant Panchami)
23.01.18 Simple Crystal Structures
24.01.18 Holiday (Sir Chhotu Ram Jayanti)
5
29.01.17 Crystal structures of Sodium Chloride
30.01.18 Crystal structures of Zinc Sulphide and Diamond
31.01.18 Holiday (Guru Ravidas Jayanti)
6
05.02.18 Origin of X-Rays
06.02.18 Test of Unit-I
07.02.18 X-ray diffraction, Bragg's Law
7
12.02.18 experimental X-ray diffraction methods
13.02.18 Holiday (Mahashivratri)
14.02.18 K-space, reciprocal lattice and its Construction
8
19.02.18 Physical significance of reciprocal lattice
20.02.18 reciprocal lattice vectors
21.02.18 reciprocal lattice vectors Properties
9
26.02.18 reciprocal lattice to a simple cubic lattice
27.02.18 reciprocal lattice to a b.c.c. and f.c.c
28.02.18 University Vacation-I
10
5.03.18 Historical introduction, Survey of superconductivity
6.03.18 Super conducting systems
7.03.18 High Tc Super conductors, Isotopic Effect, Critical Magnetic Field
11
12.03.18 Meissner Effect, London Theory and Pippards’ equation
13.03.18 Classification of Superconductors (Type I and Type II)
14.03.18 BCS Theory of Superconductivity
12
19.03.18 Flux quantization
20.03.18 Josephson Effect (AC and DC)
21.03.18 Practical applications of superconductivity and their limitations, power
application of superconductors
13
26.03.18 Definition, Length scale, Importance of Nano-scale and technology
27.03.18 History of Nantechnology
28.03.18 Test of Unit-III
14
2.04.18 Benefits and challenges in molecular manufacturing
3.04.18 Molecular assembler concept
4.04.18 Understanding advanced capabilities. Vision and objective of Nano-
technology
15
9.04.18 Tools to Understand NanoTechnology
10.04.18 Important Nanomaterials
11.04.18 Nanotechnology in different field, Automobile, Electronics, Nano-
biotechnology, Materials, Medicine
16
16.04.18 Queries of Students and Revision of Unit-I
17.04.18 Queries of Students and Revision of Unit-II
18.04.18 Holiday (Parshuram Jayanti)
17
23.04.18 Queries of Students and Revision of Unit-III
24.04.18 Queries of Students and Revision of Unit-IV
25.04.18 Assessment Test
Lesson Plan for Session 2017-18
Name of the Teacher: Mr. Rajat Gupta, Assistant Professor in Physics
Class and Section: B.Sc. II (IVth
Sem.)
Subject: Statistical Physics (Paper-VII (PH-401))
Week Date Topic/s to be covered
1
01.01.18 Microscopic and Macroscopic systems, events-mutually exclusive,
dependent and independent. Probability
02.01.18 statistical probability, A- priori Probability and relation between them,
probability theorems
03.01.18 some probability considerations
2
08.01.18 combinations possessing maximum probability, combination possessing
minimum probability
09.01.18 Tossing of 2 and 3 Coins
10.01.18 Tossing of any number of Coins
3
15.01.17 Permutations and combinations, distributions of N (for N= 2,3,4)
distinguishable particles in two boxes of equal size
16.01.18 distributions of N (for N= 2,3,4) indistinguishable particles in two boxes of
equal size
17.01.18 Micro and Macro states, Thermodynamical probability, Constraints and
Accessible states
4
22.01.18 Holiday (Basant Panchami)
23.01.18 Statistical fluctuations
24.01.18 Holiday (Sir Chhotu Ram Jayanti)
5
29.01.17 general distribution of distinguishable particles in compartments of different
sizes
30.01.18 Condition of equilibrium between two systems in thermal contact—β
parameter
31.01.18 Holiday (Guru Ravidas Jayanti)
6
05.02.18 Entropy and Probability (Boltzman's relation)
06.02.18 Postulates of statistical physics
07.02.18 Phase space, Division of Phase space into cells
7
12.02.18 Test of Unit - I
13.02.18 Holiday (Mahashivratri)
14.02.18 three kinds of statistics, basic approach in three statistics
8
19.02.18 M. B. statistics applied to an ideal gas in equilibrium- energy distribution law
20.02.18 energy distribution law (including evaluation of ơ and β )
21.02.18 speed distribution law & velocity distribution law
9
26.02.18 Expression for average speed, r.m.s. speed most probable energy & mean
energy for Maxwellian distribution.
27.02.18 Expression for average velocity, r. m. s. velocity
28.02.18 University Vacation-I
10
5.03.18 Expression for most probable energy & mean energy for Maxwellian
distribution.
6.03.18 Need for Quantum Statistics: Bose-Einstein energy distribution law
7.03.18 Application of B.E. statistics to Planck's radiation law B.E. gas
11
12.03.18 Degeneracy and B.E. Condensation
13.03.18 Fermi- Dirac energy distribution law
14.03.18 F.D. gas and Degeneracy
12
19.03.18 Fermi energy and Fermi temperature
20.03.18 Fermi Dirac energy distribution law for electron gas in metals
21.03.18 Zero point energy, Zero point pressure and average speed (at 0 K) of electron
gas
13
26.03.18 Specific heat anomaly of metals and its solution
27.03.18 M.B. distribution as a limiting case of B.E. and F.D. distributions,
Comparison of three statistics
28.03.18 Dulong and Petit law
14
2.04.18 Derivation of Dulong and Petit law from classical physics
3.04.18 Test Of Unit - III
4.04.18 Specific heat at low temperature
15 9.04.18 Einstein theory of specific heat
10.04.18 Criticism of Einstein theory, Debye model of specific heat of solids
11.04.18 Success and shortcomings of Debye theory, comparison of Einstein and
Debye theories
16
16.04.18 Queries of Students and Revision of Unit-I
17.04.18 Queries of Students and Revision of Unit-II
18.04.18 Holiday (Parshuram Jayanti)
17
23.04.18 Queries of Students and Revision of Unit-III
24.04.18 Queries of Students and Revision of Unit-IV
25.04.18 Assessment Test