PHYSICS
LESSON PLANNING PROGRAMME
DepartmentFacultySubjectSemesterTopic TypePaper TypeUnitTopic DescSub TopicClass
PhysicsSUDIPTA KARMAKARPHYSICS (MAJOR )1TheoryMajor-1Unit 5GRAVITATION AND CENTRAL FORCE MOTIONLaw of gravitation,gravitational potential energy,potential and field due to spherical shell and solid sphere,motion of a particle under central force field,two body problem and its reduction to one b4
PhysicsSUDIPTA KARMAKARPHYSICS (MAJOR )1TheoryMajor-1Unit 6ELATICITYHook's law,relation between elatic constants,poison's ratio,strain energy in a stretched wire,Twisting torque on a cylindrical or wire4
PhysicsSUDIPTA KARMAKARPHYSICS (MAJOR )1TheoryMajor-1Unit 7FLUID MOTION Surface tension,surface energy, Angle of contact,capillary rise,Viscosity,streamline flow,turbulent motion,stokes law,Renolds's number,Equation of continuity,Bernoullie's theorem,poiseuille's equation5
PhysicsSUDIPTA KARMAKARPHYSICS (MAJOR )1TheoryMajor-1Unit 8special theory of relativitypostulates of special theory of relativity,lorentz transformation,lorentz contraction,time dilation,Relativistic addition of velocities,variation of mass with velocity,mass energy equivallence,rlativ5
PhysicsISHITA DEPHYSICS (MAJOR )1PracticalMajor-1Unit IMECHANICS AND GPMRIGIDITY MODULOUS STATICAL METHOD10
PhysicsISHITA DEPHYSICS (MAJOR )1PracticalMajor-1Unit IMECHANICS AND GPMRIGIDITY MODULOUS STATICAL METHOD10
PhysicsISHITA DEPHYSICS (MAJOR )1PracticalMajor-1Unit 2MECHANICS AND GPMYOUNG'S MODULOUS FLEXURE METHOD10
PhysicsISHITA DEPHYSICS (MAJOR )1PracticalMajor-1Unit 2MECHANICS AND GPMKATER'S PENDEULUM10
PhysicsISHITA DEPHYSICS (MAJOR )1PracticalMajor-1Unit 2MECHANICS AND GPMBAR PENDEULUM10
PhysicsISHITA DEPHYSICS (MAJOR )1PracticalMajor-1Unit 2MECHANICS AND GPMFLY WHEEL10
PhysicsParimal SarkarPHYSICS (MAJOR )1PracticalMajor-1Unit IPhysics Lab - Major 1 Lab : Mechanics and General Properties of Matter1. To determine the height of a building using a Sextant.2
PhysicsParimal SarkarPHYSICS (MAJOR )1PracticalMajor-1Unit 2Physics Lab - Major 1 Lab : Mechanics and General Properties of Matter2. To study the motion of Spring and calculate (a) Spring constant; (b) Acceleration due to Gravity.2
PhysicsParimal SarkarPHYSICS (MAJOR )1PracticalMajor-1Unit 3Physics Lab - Major 1 Lab : Mechanics and General Properties of Matter3. To determine the Modulus of Rigidity of material of a cylindrical wire by Statical Method.2
PhysicsParimal SarkarPHYSICS (MAJOR )1PracticalMajor-1Unit 4Physics Lab - Major 1 Lab : Mechanics and General Properties of Matter4. To determine the Modulus of Rigidity of material of a cylindrical wire by Dynamical Method.2
PhysicsParimal SarkarPHYSICS (MAJOR )1PracticalMajor-1Unit 5Physics Lab - Major 1 Lab : Mechanics and General Properties of Matter5. To determine the Moment of Inertia of a Flywheel.2
PhysicsParimal SarkarPHYSICS (MAJOR )1PracticalMajor-1Unit 6Physics Lab - Major 1 Lab : Mechanics and General Properties of Matter6. To determine the value of g and velocity for a freely falling body using Digital Timing Technique.2
PhysicsParimal SarkarPHYSICS (MAJOR )1PracticalMajor-1Unit 7Physics Lab - Major 1 Lab : Mechanics and General Properties of Matter7. To determine the Coefficient of Viscosity of a viscous liquid using Stokes’ Law.2
PhysicsParimal SarkarPHYSICS (MAJOR )1PracticalMajor-1Unit 8Physics Lab - Major 1 Lab : Mechanics and General Properties of Matter8. To determine Coefficient of Viscosity of water by Poiseuille’s flow Method.2
PhysicsParimal SarkarPHYSICS (MAJOR )1PracticalMajor-1Unit 9Physics Lab - Major 1 Lab : Mechanics and General Properties of Matter9. To determine the Young’s Modulus of a Bar by Flexure Method.2
PhysicsParimal SarkarPHYSICS (MAJOR )1PracticalMajor-1Unit 9Physics Lab - Major 1 Lab : Mechanics and General Properties of Matter10. To determine the Young’s Modulus of a Wire by Optical Lever Method.2
PhysicsParimal SarkarPHYSICS (MAJOR )1PracticalMajor-1Unit 10Physics Lab - Major 1 Lab : Mechanics and General Properties of Matter11. To determine the Modulus of Rigidity of a Wire by Maxwell’s needle.2
PhysicsParimal SarkarPHYSICS (MAJOR )1PracticalMajor-1Unit 11Physics Lab - Major 1 Lab : Mechanics and General Properties of Matter12. To determine the Young’s Modulus of a wire by Searle’s method.2
PhysicsParimal SarkarPHYSICS (MAJOR )1PracticalMajor-1Unit 12Physics Lab - Major 1 Lab : Mechanics and General Properties of Matter13. To determine the value of g using Bar Pendulum.2
PhysicsParimal SarkarPHYSICS (MAJOR )1PracticalMajor-1Unit 13Physics Lab - Major 1 Lab : Mechanics and General Properties of Matter14. To determine the value of g using Kater’s Pendulum.2
PhysicsParimal SarkarPHYSICS (MAJOR )1PracticalMajor-1Unit 14Physics Lab - Major 1 Lab : Mechanics and General Properties of Matter15. To determine the surface tension of water by Jaeger’s Method.2
PhysicsParimal SarkarPHYSICS (MAJOR )1TheoryMajor-1Unit IPhysics - Major 1 : Mechanics and General Properties of Matter: Vector CalculusRecapitulation of vectors: Properties of vectors under rotations. Scalar product and its invariance under rotations.2
PhysicsParimal SarkarPHYSICS (MAJOR )1TheoryMajor-1Unit 2Physics - Major 1 : Mechanics and General Properties of Matter: Vector CalculusVector product, Scalar triple product and their interpretation in terms of area and volume respectively. Scalar and Vector fields.2
PhysicsParimal SarkarPHYSICS (MAJOR )1TheoryMajor-1Unit 3Physics - Major 1 : Mechanics and General Properties of Matter: Vector DifferentiationDirectional derivatives and normal derivative. Gradient of a scalar field and its geometrical interpretation.2
PhysicsParimal SarkarPHYSICS (MAJOR )1TheoryMajor-1Unit 4Physics - Major 1 : Mechanics and General Properties of Matter: Vector DifferentiationDivergence and Curl of a vector field. Del and Laplacian operators. Vector identities.2
PhysicsParimal SarkarPHYSICS (MAJOR )1TheoryMajor-1Unit 4Physics - Major 1 : Mechanics and General Properties of Matter: Divergence and Curl of a vector field. Del and Laplacian operators. Vector identities.2
PhysicsParimal SarkarPHYSICS (MAJOR )1TheoryMajor-1Unit 4Physics - Major 1 : Mechanics and General Properties of Matter: Vector DifferentiationDivergence and Curl of a vector field. Del and Laplacian operators. Vector identities.2
PhysicsParimal SarkarPHYSICS (MAJOR )1TheoryMajor-1Unit 5Physics - Major 1 : Mechanics and General Properties of Matter:Special Theory of RelativityMichelson-Morley Experiment. Postulates of Special Theory of Relativity.2
PhysicsParimal SarkarPHYSICS (MAJOR )1TheoryMajor-1Unit 6Physics - Major 1 : Mechanics and General Properties of Matter:Special Theory of RelativityLorentz Transformations. Simultaneity and order of events.2
PhysicsParimal SarkarPHYSICS (MAJOR )1TheoryMajor-1Unit 7Physics - Major 1 : Mechanics and General Properties of Matter:Special Theory of RelativityLorentz contraction. Time dilation. Relativistic addition of velocities. Variation of mass with velocity.2
PhysicsParimal SarkarPHYSICS (MAJOR )1TheoryMajor-1Unit 8Physics - Major 1 : Mechanics and General Properties of Matter:Special Theory of RelativityMass-energy Equivalence. Relativistic Doppler effect.2
PhysicsParimal SarkarPHYSICS (MAJOR )1TheoryMajor-1Unit 9Physics - Major 1 : Mechanics and General Properties of Matter:Special Theory of RelativityRelativistic Kinematics.2
PhysicsParimal SarkarPHYSICS (MAJOR )1TheoryMajor-1Unit 10Physics - Major 1 : Mechanics and General Properties of Matter:Special Theory of RelativityTransformation of Energy and Momentum.2
PhysicsParimal SarkarPHYSICS (MINOR )1TheoryMinor-1Unit IPhysics - Minor 1 (3) : Mechanics and General Properties of Matter: Fundamentals of Dynamics Reference frames. Inertial frames; Galilean transformations. Review of Newton’s Laws of Motion. Projectile motion, Dynamics of a system of particles. Centre of Mass.2
PhysicsParimal SarkarPHYSICS (MINOR )1TheoryMinor-1Unit 2Physics - Minor 1 (3) : Mechanics and General Properties of Matter: Fundamentals of Dynamics Principle of conservation of momentum, Impulse. Momentum of variable-mass system: motion of rocket.2
PhysicsParimal SarkarPHYSICS (MINOR )1TheoryMinor-1Unit 3Physics - Minor 1 (3) : Mechanics and General Properties of Matter: Fundamentals of Dynamics Components of Velocity and Acceleration in plane polar, Cylindrical and Spherical Coordinate Systems.2
PhysicsParimal SarkarPHYSICS (MINOR )1TheoryMinor-1Unit 4Physics - Minor 1 (3) : Mechanics and General Properties of Matter: Fundamentals of Dynamics Laws of physics in rotating coordinate systems, Centrifugal force. Coriolis force and its applications.2
PhysicsParimal SarkarPHYSICS (MINOR )1TheoryMinor-1Unit 4Physics - Minor 1 (3) : Mechanics and General Properties of Matter: Work and EnergyWork and Kinetic Energy Theorem. Conservative and non- conservative forces. Potential Energy. Stable and unstable equilibrium.2
PhysicsParimal SarkarPHYSICS (MINOR )1TheoryMinor-1Unit 5Physics - Minor 1 (3) : Mechanics and General Properties of Matter: Work and EnergyForce as gradient of potential energy. Workdone bynon-conservative forces. Lawof conservation of Energy. Elastic and inelastic collisions. Centre of Mass frame and Laboratory frame.2
PhysicsParimal SarkarPHYSICS (MINOR )1TheoryMinor-1Unit 6Physics - Minor 1 (3) : Mechanics and General Properties of Matter: Rotational DynamicsAngularmomentum of a particle and systemof particles. Torque. Principle of conservation of angular momentum. Moment of Inertia, parallel and perpendicular axes theorem,2
PhysicsParimal SarkarPHYSICS (MINOR )1TheoryMinor-1Unit 7Physics - Minor 1 (3) : Mechanics and General Properties of Matter: Rotational Dynamicsmoment of inertia for rectangular, cylindrical and spherical bodies. Kinetic energy of rotation. Motion involving both translation and rotation.2
PhysicsParimal SarkarPHYSICS (MINOR )1TheoryMinor-1Unit 8Physics - Minor 1 (3) : Mechanics and General Properties of Matter: Gravitation and Central Force MotionLaw of gravitation. Gravitational potential energy. Inertial and gravitational mass. Potential and field due to spherical shell and solid sphere. Motion of a particle under a central force field.2
PhysicsParimal SarkarPHYSICS (MINOR )1TheoryMinor-1Unit 10Physics - Minor 1 (3) : Mechanics and General Properties of Matter: Gravitation and Central Force MotionTwo-body problem and its reduction to one-body problem and its solution. Kepler’s Laws. Satellite in circular orbit and applications. Geosynchronous orbits. Weightlessness.2
PhysicsParimal SarkarPHYSICS (MINOR )1TheoryMinor-1Unit 11Physics - Minor 1 (3) : Mechanics and General Properties of Matter: Gravitation and Central Force MotionBasic idea of global positioning system (GPS). Physiological effects on astronauts.2
PhysicsISHITA DEPHYSICS (MINOR )1PracticalMinor-1Unit 3MECHANICS AND GPMFREE FALLING BODY10
PhysicsISHITA DEPHYSICS (MINOR )1PracticalMinor-1Unit 2MECHANICS AND GPMYOUNG'S MODULOUS FLEXURE METHOD10
PhysicsISHITA DEPHYSICS (MINOR )1PracticalMinor-1Unit 2MECHANICS AND GPMFLY WHEEL10
PhysicsISHITA DEPHYSICS (MINOR )1PracticalMinor-1Unit 2MECHANICS AND GPMRIGIDITY MODULOUS BY STATICAL METHOD10
PhysicsISHITA DEPHYSICS (MINOR )1PracticalMinor-1Unit 2MECHANICS AND GPMRIGIDITY MODULOUS BY DYNAMICAL METHOD STATICAL METHOD10
PhysicsISHITA DEPHYSICS (MINOR )1PracticalMinor-1Unit 3MECHANICS AND GPMBAR PENDULUM10
PhysicsISHITA DEPHYSICS (MINOR )1PracticalMinor-1Unit 4MECHANICS AND GPMKATER'S PENDULUM10
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )1PracticalMinor-1Unit ITO STUDY THE MOTION OF SPRING AND CALCULATE SPRING CONSTANT ,ACCELERATION DUE TO GRAVITY 0
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )1PracticalMinor-1Unit 2TO DETERMINE THE MODULUS OF RIGIDITY OF MATERIAL OF ACYLINDRICAL WIRE BY STATISTICAL METHOD 0
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )1PracticalMinor-1Unit 3TO DETERMINE THE MODULUS OF RIGIDITY OF MATERIAL OF A CYLINDRICAL WIRE BY DYNAMICAL METHOD  0
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )1PracticalMinor-1Unit 4TO DETERMINE THE MOMENT OF INERTIA OF A FLYWHEEL 0
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )1PracticalMinor-1Unit 5TO DETERMINE THE VALUE OF G AND VELOCITYFOR A FREELY FALLING BODY USING DIGITAL TIMING TECHNIQUE 0
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )1PracticalMinor-1Unit 6TO DETERMINE THE YOUNG'S MODULUS OF A WIRE BY FLEXURE METHOD 0
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )1PracticalMinor-1Unit 7TO DETERMINE THE YOUNG'S MODULUS OF A WIRE BY OPTICAL LEVER METHOD 0
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )1PracticalMinor-1Unit 8TO DETERMINE THE VALUE OF g USING BAR PENDULUM 0
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )1PracticalMinor-1Unit 9TO DETERMINE THE VALUE OF g USING KATER'S PENDULUM 0
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )1PracticalMinor-1Unit 9TO DETERMINE THE COEEFICIENT OF VISCOSITY OF A VISCOUS LIQUID USING STOKE'S LAW 0
PhysicsANIMESH HALDARPHYSICS (MINOR )1TheoryMinor-1Unit IVector Calculus Recapitulation of vectors: Properties of vectors under rotations. Scalar product and its invariance under rotations4
PhysicsANIMESH HALDARPHYSICS (MINOR )1TheoryMinor-1Unit IVector Calculus Vector product, Scalar triple product and their interpretation in terms of area and volume respectively4
PhysicsANIMESH HALDARPHYSICS (MINOR )1TheoryMinor-1Unit IVector Calculus . Scalar and Vector fields. Vector Differentiation: Directional derivatives and normal derivative4
PhysicsANIMESH HALDARPHYSICS (MINOR )1TheoryMinor-1Unit 2Vector Calculus . Gradient of a scalar field and its geometrical interpretation. Divergence and Curl of a vector field. Del and Laplacian operators. Vector identities.6
PhysicsANIMESH HALDARPHYSICS (MINOR )1TheoryMinor-1Unit 3Vector Calculus Vector Integration: Line, surface and volume integrals of Vector fields4
PhysicsANIMESH HALDARPHYSICS (MINOR )1TheoryMinor-1Unit 3Vector Calculus . Flux of a vector field. Gauss’ divergence theorem4
PhysicsANIMESH HALDARPHYSICS (MINOR )1TheoryMinor-1Unit 3Vector Calculus .Green’s and Stokes’ Theorems and their ap- plications (no rigorous proofs).4
PhysicsANIMESH HALDARPHYSICS (MINOR )1TheoryMinor-1Unit 4Orthogonal Curvilinear Coordinates.Green’s and Stokes’ Theorems and their ap- plications (no rigorous proofs).8
PhysicsANIMESH HALDARPHYSICS (MAJOR )2PracticalMajor -2Unit ILab on Electricity & Magnetism10. To study response curve of a Series LCR circuit and determine its (a) Resonant frequency; (b) Impedance at resonance (c) Quality factor Q and (d) Band width.2
PhysicsParimal SarkarPHYSICS (MAJOR )2PracticalMajor -2Unit 6Electricity and MagnetisM LABMeasurement of field strength B and its variation in a solenoid (determine dB/dx).4
PhysicsParimal SarkarPHYSICS (MAJOR )2PracticalMajor -2Unit 7Electricity and MagnetisM LABTo verify the Superposition, and Maximum power transfer theorems.4
PhysicsParimal SarkarPHYSICS (MAJOR )2PracticalMajor -2Unit 8Electricity and MagnetisM LABTo determine self inductance of a coil by Anderson’s bridge.4
PhysicsANIMESH HALDARPHYSICS (MAJOR )2PracticalMajor -2Unit 2Electricity & Mgnetism LabVerification of Thevenin & Norton Theorem4
PhysicsANIMESH HALDARPHYSICS (MAJOR )2TheoryMajor -2Unit IMagnetic fieldProperties of B: curl and divergence.2
PhysicsANIMESH HALDARPHYSICS (MAJOR )2TheoryMajor -2Unit 4Magnetic fieldBiot-Savart’s Law and its simple applications: straight wire and circular loop. Current Loop as a Magnetic Dipole and its Dipole Moment (Analogy with Electric Dipole).3
PhysicsANIMESH HALDARPHYSICS (MAJOR )2TheoryMajor -2Unit 4Magnetic fieldAmpere’s Circuital Law and its application to straight wire, Solenoid and Toroid. Properties of ~B: curl and divergence.2
PhysicsANIMESH HALDARPHYSICS (MAJOR )2TheoryMajor -2Unit 4Magnetic fieldVector Potential. Magnetic Force on (1) point charge (2) current carrying wire. Torque on a current loop in a uniform Magnetic Field,3
PhysicsANIMESH HALDARPHYSICS (MAJOR )2TheoryMajor -2Unit 4Magnetic field, Ballistic Galvanometer: Current and Charge Sensitivity, Electromagnetic damping, Logarithmic damping, CDR.2
PhysicsANIMESH HALDARPHYSICS (MAJOR )2TheoryMajor -2Unit 5Magnetic Properties of MatterMagnetisation vector (M~ ). Magnetic Intensity (H~ ). Magnetic Susceptibility and Permeability. Relation between ~B, H~ and M~ .3
PhysicsANIMESH HALDARPHYSICS (MAJOR )2TheoryMajor -2Unit 5Magnetic Properties of MatterDiamagnetism,Paramagnetism and Ferromagnetism. B-H curve and hysteresis.2
PhysicsANIMESH HALDARPHYSICS (MAJOR )2TheoryMajor -2Unit 5Electromagnetic InductionFaraday’s Law. Lenz’s Law. Motional emf, eddy current, Self-Inductance and Mutual Inductance. Reciprocity Theorem. Energy stored in a Magnetic Field.3
PhysicsANIMESH HALDARPHYSICS (MAJOR )2TheoryMajor -2Unit 6Network TheoremIdeal Constant-voltage and Constant-current Sources2
PhysicsANIMESH HALDARPHYSICS (MAJOR )2TheoryMajor -2Unit 6Network Theorem. Network Theorems: Thevenin’s theorem, Norton’s theorem, Superposition theorem, Reciprocity theorem, Maximum Power Transfer theorem. Applications to dc circuits.5
PhysicsParimal SarkarPHYSICS (MAJOR )2PracticalMajor -2Unit 5Electricity and MagnetisM LABMeasurement of field strength B and its variation in a solenoid (determine dB/dx).4
PhysicsParimal SarkarPHYSICS (MAJOR )2PracticalMajor -2Unit 6Electricity and MagnetisM LABTo verify the Thevenin’s and Norton’s theorems4
PhysicsParimal SarkarPHYSICS (MAJOR )2PracticalMajor -2Unit 6Electricity and MagnetisM LABTo verify the Thevenin’s and Norton’s theorems4
PhysicsANIMESH HALDARPHYSICS (MAJOR )2TheoryMajor -2Unit IElectric Field & PotentialCoulomb"s law2
PhysicsParimal SarkarPHYSICS (MAJOR )2TheoryMajor -2Unit IElectricity and Magnetism: Electric Field and Electric PotentialGauss’ Law with applications5
PhysicsParimal SarkarPHYSICS (MAJOR )2TheoryMajor -2Unit IElectricity and Magnetism: Electric Field and Electric PotentialGauss’ Law with applications5
PhysicsISHITA DEPHYSICS (MAJOR )2PracticalMajor -2Unit IMajor 2 Lab : Electricity and Magnetism 1. To determine an unknown Low Resistance using Potentiometer/fall of potential method. 2. To determine an unknown Resistance using Carey Foster’s Bridge.6
PhysicsParimal SarkarPHYSICS (MAJOR )2TheoryMajor -2Unit 2Electricity and Magnetism: Electric Field and Electric PotentialElectric dipole5
PhysicsISHITA DEPHYSICS (MAJOR )2PracticalMajor -2Unit 2Major 2 Lab : Electricity and Magnetism 3. To compare capacitances using De’Sauty’s bridge.2
PhysicsISHITA DEPHYSICS (MAJOR )2PracticalMajor -2Unit 4Major 2 Lab : Electricity and Magnetism 8. To study the ac characteristics of a series CR Circuit. 9. To study the ac characteristics of a series LR Circuit.8
PhysicsParimal SarkarPHYSICS (MAJOR )2TheoryMajor -2Unit 4Electricity and Magnetism: CapacitanceCapacitance of parallel plate, spherical, cylindrical capacitor, combination of capacitors.5
PhysicsParimal SarkarPHYSICS (MAJOR )2TheoryMajor -2Unit 5Electricity and Magnetism:Electrical CircuitsDC Circuits5
PhysicsISHITA DEPHYSICS (MAJOR )2PracticalMajor -2Unit 4Major 2 Lab : Electricity and Magnetism 10. To study response curve of a Series LCR circuit and determine its (a) Resonant frequency; (b) Impedance at resonance (c) Quality factor Q and (d) Band width. 11. To study the response curve of a p8
PhysicsParimal SarkarPHYSICS (MAJOR )2TheoryMajor -2Unit 6Electricity and Magnetism:Electrical CircuitsAC Circuits5
PhysicsParimal SarkarPHYSICS (MAJOR )2TheoryMajor -2Unit 3Electricity and Magnetism: Electric field in Conductor and Dielectric materialRelations between ~E, ~P and ~D. Gauss’ Law in dielectrics.5
PhysicsISHITA DEPHYSICS (MAJOR )2PracticalMajor -2Unit 5Major 2 Lab : Electricity and Magnetism 6. To verify the Superposition, and Maximum power transfer theorems.4
PhysicsISHITA DEPHYSICS (MINOR )2PracticalMinor-2Unit 5Major 2 Lab : Electricity and Magnetism 13. To determine the self-inductance of two coils separately by using Anderson’s Bridge and the total equivalent inductance when they are connected in series and hence estimate the coefficient of coup10
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )2TheoryMinor-2Unit IELECTRIC FIELD AND ELECTRIC POTENTIALCoulomb's law,electric flux,gauss law,electrostatic energy of a charged sphere ,laplace 's &poisson equation,electrostatic forced of a charged particle,electric dipole,electric potential,field due to 4
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )2TheoryMinor-2Unit 2ELECTRIC FIELD IN CONDUCTOR & DIELECTRIC MATERIAL Electric field in conductor,di electric polarisation ,electric susceptibility,dielectric constant,displacement vector,relation betyween E,P,D,Gauss law in dielectrics2
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )2TheoryMinor-2Unit 3CAPACITANCECapacitance of a conductor,capacitance of parallel plate spherical,cylindrical capacitor3
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )2TheoryMinor-2Unit 4MAGNETIC FIELDBio savart law,straight and circular loop,magnetic dipole &its dipole moment . Ampere circuital law & its application,properties of B ,divergence & curl,Torque on a current loop in a uniform magnetic 4
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )2TheoryMinor-2Unit 5MAGNETICS PROPERTIES OF MATTERManetisation vector,magnetic intensity,magnetic susceptibility&pemeability.relation between B,H,M. Dia para,ferromagnetism ,B-H CURVE3
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )2TheoryMinor-2Unit 6ELECTROMAGNETIC INDUCTIONFaraday's law,Lenz's law,self inductance &mutual inductance,energy stored in magnetic field 2
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )2TheoryMinor-2Unit 7ELECTRICAL CIRCUITSLR,CR, LCR circuit,series LCR circuit resonance,power dissipation,quality factor,band width.parallel LCR circuit,LC oscillation3
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )2TheoryMinor-2Unit 8NETWORK THEOREMSThevenin theorem,Norton's theorem,superposition theorem,Maximum power Transfer theorem,Application to dc circuits4
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )2PracticalMinor-2Unit ITO DETERMINE AN UNKNOWN LOW RESISTANCE USING FALL OF POTENTIAL METHOD 2
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )2PracticalMinor-2Unit 2TO DETERMINE AN UNKNOWN RESISTANCE USING CAREY FOSTER'S BRIDGE 2
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )2PracticalMinor-2Unit 3TO COMPARE CAPACITANCES USING DE'SAUTY BRIDGE 2
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )2PracticalMinor-2Unit 4TO VERIFY THE THEVENIN'S AND NORTON'S THEOREM 2
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )2PracticalMinor-2Unit 5TO VERIFY THE SUPERPOSITION AND MAXIMUM POWER TRANSFER THEOREM 2
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )2PracticalMinor-2Unit 6TO DETERMINE THE SELF INDUCTANCE OF A COIL BY ANDERSON'S BRIDGE 2
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )2PracticalMinor-2Unit 7TO STUDY THE AC CHARACTERISTIC OF A SERIES LR,CR CIRCUIT 2
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )2PracticalMinor-2Unit 8TO STUDY THE RESPONSE CURVE OF A SERIES LCR CIRCUIT & DETERMINE RESONANT FREQUENCY ,QUALITY FACTOR ,BAND WIDTH 2
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )2PracticalMinor-2Unit 9TO DETERMINE THE SELF INDUCTANCE OF A COIL BY RAYLEIGH 'S METHOD  2
PhysicsISHITA DEPHYSICS (MINOR )2PracticalMinor-2Unit 4Major 2 Lab : Electricity and Magnetism 8. To study the ac characteristics of a series CR Circuit. 9. To study the ac characteristics of a series LR Circuit.8
PhysicsISHITA DEPHYSICS (MINOR )2PracticalMinor-2Unit IMajor 2 Lab : Electricity and Magnetism 1. To determine an unknown Low Resistance using Potentiometer/fall of potential method. 2. To determine an unknown Resistance using Carey Foster’s Bridge.6
PhysicsISHITA DEPHYSICS (MINOR )2PracticalMinor-2Unit 2Major 2 Lab : Electricity and Magnetism 3. To compare capacitances using De’Sauty’s bridge.2
PhysicsISHITA DEPHYSICS (MINOR )2PracticalMinor-2Unit 5Major 2 Lab : Electricity and Magnetism 10. To study response curve of a Series LCR circuit and determine its (a) Resonant frequency; (b) Impedance at resonance (c) Quality factor Q and (d) Band width. 11. To study the response curve of a p10
PhysicsISHITA DEPHYSICS (MINOR )2PracticalMinor-2Unit 3Major 2 Lab : Electricity and Magnetism 6. To verify the Superposition, and Maximum power transfer theorems.2
PhysicsParimal SarkarPHYSICS (MAJOR )3PracticalMajor-3Unit IPhysics - Major 3 Lab : Waves and Optics practical1. To determine the frequency of an electric tuning fork by Melde’s experiment and verify ?2 - T law.2
PhysicsParimal SarkarPHYSICS (MAJOR )3PracticalMajor-3Unit 2Physics - Major 3 Lab : Waves and Optics practical2. To investigate the motion of coupled oscillators2
PhysicsParimal SarkarPHYSICS (MAJOR )3PracticalMajor-3Unit 3Physics - Major 3 Lab : Waves and Optics practical3. To study Lissajous Figures to find out the ratios of frequencies and phase determinations.2
PhysicsParimal SarkarPHYSICS (MAJOR )3PracticalMajor-3Unit 4Physics - Major 3 Lab : Waves and Optics practical4. Familiarisation with: Schuster‘s focusing; determination of angle of prism.2
PhysicsParimal SarkarPHYSICS (MAJOR )3PracticalMajor-3Unit 5Physics - Major 3 Lab : Waves and Optics practical5. To determine refractive index of the Material of a prism using sodium source.2
PhysicsParimal SarkarPHYSICS (MAJOR )3PracticalMajor-3Unit 7Physics - Major 3 Lab : Waves and Optics practical7. To determine thewavelength of sodium source using Michelson’s interferometer.2
PhysicsParimal SarkarPHYSICS (MAJOR )3PracticalMajor-3Unit 8Physics - Major 3 Lab : Waves and Optics practical8. To determine wavelength of sodium light using Fresnel Biprism.2
PhysicsParimal SarkarPHYSICS (MAJOR )3PracticalMajor-3Unit 9Physics - Major 3 Lab : Waves and Optics practical9. To determine wavelength of sodium light using Newton’s Rings.2
PhysicsParimal SarkarPHYSICS (MAJOR )3PracticalMajor-3Unit 10Physics - Major 3 Lab : Waves and Optics practical10. To determine the thickness of a thin paper by measuring the width of the interference fringes produced by a wedge-shaped Film.2
PhysicsParimal SarkarPHYSICS (MAJOR )3PracticalMajor-3Unit 11Physics - Major 3 Lab : Waves and Optics practical11. To determine the wavelength of a monochromatic source using diffraction of single slit.2
PhysicsParimal SarkarPHYSICS (MAJOR )3PracticalMajor-3Unit 12Physics - Major 3 Lab : Waves and Optics practical12. To determine the wavelength of a monochromatic source using diffraction of double slits.2
PhysicsParimal SarkarPHYSICS (MAJOR )3PracticalMajor-3Unit 13Physics - Major 3 Lab : Waves and Optics practical13. To determine wavelength of a monochromatic source using plane diffraction grating.2
PhysicsParimal SarkarPHYSICS (MAJOR )3PracticalMajor-3Unit 14Physics - Major 3 Lab : Waves and Optics practical14. To determine angular spread of He-Ne laser using plane diffraction grating.2
PhysicsParimal SarkarPHYSICS (MAJOR )3PracticalMajor-3Unit 15Physics - Major 3 Lab : Waves and Optics practical15. To determine dispersive power and resolving power of a plane diffraction grating.2
PhysicsISHITA DEPHYSICS (MAJOR )3TheoryMajor-3Unit IWAVE AND OPTICSORDINARY DIFFERENTIAL EQUATION4
PhysicsISHITA DEPHYSICS (MAJOR )3TheoryMajor-3Unit 2WAVE AND OPTICSFOURIER SERIES4
PhysicsISHITA DEPHYSICS (MAJOR )3TheoryMajor-3Unit 3WAVE AND OPTICSSHM4
PhysicsISHITA DEPHYSICS (MAJOR )3TheoryMajor-3Unit 4WAVE AND OPTICSDAMPED OSCILLATION4
PhysicsISHITA DEPHYSICS (MAJOR )3PracticalMajor-4Unit IANALOG ELECTRONICSPN JUNCTION DIODE AND ITS IV CHARACTERISTICS4
PhysicsISHITA DEPHYSICS (MAJOR )3PracticalMajor-4Unit IANALOG ELECTRONICSZENER DIODE AND ITS IV CHARACTERISTICS8
PhysicsISHITA DEPHYSICS (MAJOR )3PracticalMajor-4Unit IANALOG ELECTRONICSOPAMP AS INVERTING AMPLIFIER10
PhysicsISHITA DEPHYSICS (MAJOR )3PracticalMajor-4Unit 3ANALOG ELECTRONICSOPAMP AS NON-INVERTING AMPLIFIER10
PhysicsISHITA DEPHYSICS (MAJOR )3PracticalMajor-4Unit 4ANALOG ELECTRONICSBJT IN CE MODE10
PhysicsANIMESH HALDARPHYSICS (MAJOR )3TheoryMajor-4Unit ISemiconductor diodePandNtypesemiconductors1
PhysicsANIMESH HALDARPHYSICS (MAJOR )3TheoryMajor-4Unit ISemiconductor diodeEnergyLevelDiagramofSemi- conductors1
PhysicsANIMESH HALDARPHYSICS (MAJOR )3PracticalMajor-4Unit ILaboratory work for Analog Electronics1. To study V-I characteristics of PN junction diode or Light emitting diode4
PhysicsANIMESH HALDARPHYSICS (MAJOR )3PracticalMajor-4Unit 2Laboratory work for Analog Electronics2. To study the V-I characteristics of a Zener diode and its use as voltage regulator4
PhysicsANIMESH HALDARPHYSICS (MAJOR )3PracticalMajor-4Unit 3Laboratory work for Analog Electronics3. To study the characteristics of a Bipolar Junction Transistor in CE configuration4
PhysicsANIMESH HALDARPHYSICS (MAJOR )3PracticalMajor-4Unit 4Laboratory work for Analog Electronics4. To study the various biasing configurations of BJT for normal class A operation4
PhysicsANIMESH HALDARPHYSICS (MAJOR )3PracticalMajor-4Unit 4Laboratory work for Analog Electronics5. To design a CE (CC) transistor amplifier of a given gain (mid-gain) using voltage divider bias.4
PhysicsANIMESH HALDARPHYSICS (MAJOR )3PracticalMajor-4Unit 4Laboratory work for Analog Electronics6. To study the frequency response and voltage gain of a RC-coupled transistor am- plifier4
PhysicsANIMESH HALDARPHYSICS (MAJOR )3PracticalMajor-4Unit ILab activity on Analog ElectronicsTo study the V-I characteristics of a Zener diode and its use as voltage regulator.4
PhysicsANIMESH HALDARPHYSICS (MAJOR )3TheoryMajor-4Unit 2BJTn-p-nandp-n-pTransistors. CharacteristicsofCB,CE andCCConfigurations.Currentgainsaandß.Relationsbetweena andß.6
PhysicsANIMESH HALDARPHYSICS (MAJOR )3TheoryMajor-4Unit 2BJTLoadLine analysisofTransistors.DCLoadlineandQ-point.PhysicalMechanismofCurrentFlow. Active,CutoffandSaturationRegions.6
PhysicsANIMESH HALDARPHYSICS (MAJOR )3TheoryMajor-4Unit 2Two-terminalDevicesandtheirApplicationsRectifierDiode: Half-waveRecti- fiers.Centre-tappedandBridgeFull-waveRectifiers,CalculationofRippleFactorand RectificationEfficiency6
PhysicsANIMESH HALDARPHYSICS (MAJOR )3TheoryMajor-4Unit 2Two-terminalDevicesandtheirApplicationsC-filter,DiodeClippingandClampingcircuits(2)ZenerDiode and Voltage Regulation.4
PhysicsANIMESH HALDARPHYSICS (MAJOR )3TheoryMajor-4Unit 2Two-terminalDevicesandtheirApplications.Principle and structure of (1) LED (2) Photodiode and (3) Solar Cell, (4) Tunnel Diode.4
PhysicsANIMESH HALDARPHYSICS (MAJOR )3TheoryMajor-4Unit 3Two-terminalDevicesandtheirApplicationsCurrentgainsaandß.Relationsbetweena andß.LoadLine analysisofTransistors.DCLoadlineandQ-point.PhysicalMechanismofCurrentFlow. Active,CutoffandSaturationRegions4
PhysicsANIMESH HALDARPHYSICS (MAJOR )3TheoryMajor-4Unit 4RegulatedPowerSupplyBasicideaofSeriesandShuntvoltageregulation4
PhysicsANIMESH HALDARPHYSICS (MAJOR )3TheoryMajor-4Unit 4FieldEffectTransistorsFieldEffectTransistors:CharacteristicsandstructureofJFET.4
PhysicsANIMESH HALDARPHYSICS (MAJOR )3TheoryMajor-4Unit 5Amplifiers:Transistor as 2-port Network.h-parameter Equivalent Circuit.Analysis of a single-stage CE amplifier using Hybrid Model , Input and Output Impedance, Current, VoltageandPowerGains6
PhysicsANIMESH HALDARPHYSICS (MAJOR )3TheoryMajor-4Unit 5Amplifiers:BasicideaofClassA,ClassB,ClassC&ClassABAmplifiers.4
PhysicsSUDIPTA KARMAKARPHYSICS (MAJOR )3TheoryMajor-4Unit 5Coupled amplifiersRC coupled amplifiers and its frequency response2
PhysicsSUDIPTA KARMAKARPHYSICS (MAJOR )3TheoryMajor-4Unit 6Feedback in amplifierseffect of positive and negative feedback on input impedance,output impedance,gain,stabilityand noise4
PhysicsSUDIPTA KARMAKARPHYSICS (MAJOR )3TheoryMajor-4Unit 7Sinusoidal oscillatorsBarkhausen criterion for sustained oscillation,RC phase shift oscillator,Hartley and colpitts oscillator2
PhysicsSUDIPTA KARMAKARPHYSICS (MAJOR )3TheoryMajor-4Unit 8OPERATIONAL AMPLIFIERSCharacterisatic of an ideal and practical opamp,frequency response,CMRR,slew rate,concept of virtual ground,and application4
PhysicsSUDIPTA KARMAKARPHYSICS (MAJOR )3TheoryMajor-4Unit 9conversionresistive network accuracy,,A/D conversion 2
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )3PracticalMinor-3Unit ITo determine the height of a building using a sextant 0
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )3PracticalMinor-3Unit 2To study the motion of spring and calculate spring constant,acceleration due to gravity 0
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )3PracticalMinor-3Unit 4To determine the modulus of rigidity of material of a cylindrical wire by dyanamical method 0
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )3PracticalMinor-3Unit 5To determine the moment of inertia of a flywheel 0
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )3PracticalMinor-3Unit 6To determine the moment of inertia of a cylindrical /rectangular bar 0
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )3PracticalMinor-3Unit 7To determine the value of g and velocity for a freely falling body using digital time technique 0
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )3PracticalMinor-3Unit 8To determine the young 's modulus of a bar by flexure method 0
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )3PracticalMinor-3Unit 9To determine the young 's modulus of a wire by optical lever method 0
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )3PracticalMinor-3Unit 10To determine the young 's modulus of a wire by searle's method 0
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )3PracticalMinor-3Unit 11To determine the value of g using bar pendulum 0
PhysicsSUDIPTA KARMAKARPHYSICS (MINOR )3PracticalMinor-3Unit 11To determine the value of g using kater's pendulum 0
PhysicsANIMESH HALDARPHYSICS (MINOR )3TheoryMinor-3Unit IVector Calculus Recapitulation of vectors: Properties of vectors under rotations. Scalar product and its invariance under rotations. 4
PhysicsANIMESH HALDARPHYSICS (MINOR )3TheoryMinor-3Unit IVector Calculus Vector product, Scalar triple product and their interpretation in terms of area and volume respectively. Scalar and Vector fields4
PhysicsANIMESH HALDARPHYSICS (MINOR )3TheoryMinor-3Unit 2Vector Differentiation: Directional derivatives and normal derivative. Gradient of a scalar field and its geometrical interpretation4
PhysicsANIMESH HALDARPHYSICS (MINOR )3TheoryMinor-3Unit 2Vector Differentiation: Divergence and Curl of a vector field. Del and Laplacian operators. Vector identities.4
PhysicsANIMESH HALDARPHYSICS (MINOR )3TheoryMinor-3Unit 3Vector IntegrationLine, surface and volume integrals of Vector fields. Flux of a vector field. Gauss’ divergence theorem,2
PhysicsANIMESH HALDARPHYSICS (MINOR )3TheoryMinor-3Unit 4Orthogonal Curvilinear CoordinatesDerivation of Gradient, Divergence, Curl and Laplacian in Cartesian, Spherical and Cylindrical Coordinate Systems4
PhysicsANIMESH HALDARPHYSICS (MINOR )3TheoryMinor-3Unit IVector Calculus Recapitulation of vectors: Properties of vectors under rotations2
PhysicsANIMESH HALDARPHYSICS (MINOR )3TheoryMinor-3Unit IVector Calculus . Scalar product and its invariance under rotations. Vector product,4
PhysicsANIMESH HALDARPHYSICS (MINOR )3TheoryMinor-3Unit IVector Calculus Scalar triple product and their interpretation in terms of area and volume respectively. Scalar and Vector fields.6
PhysicsANIMESH HALDARPHYSICS (MINOR )3PracticalMinor-3Unit IMechanics lab ActivityTo determine the height of a building using a Sextant4
PhysicsANIMESH HALDARPHYSICS (MINOR )3PracticalMinor-3Unit 2Mechanics lab ActivityTo study the motion of Spring and calculate (a) Spring constant; (b) Acceleration due to Gravity4
PhysicsANIMESH HALDARPHYSICS (MINOR )3PracticalMinor-3Unit 3Mechanics lab ActivityTo determine the Modulus of Rigidity of material of a cylindrical wire by Statical Method.4
PhysicsANIMESH HALDARPHYSICS (MINOR )3PracticalMinor-3Unit 4Mechanics lab ActivityTo determine the Modulus of Rigidity of material of a cylindrical wire by Dynamical Method4
PhysicsANIMESH HALDARPHYSICS (MINOR )3PracticalMinor-3Unit 5Mechanics lab ActivityTo determine the Moment of Inertia of a Flywheel4
PhysicsANIMESH HALDARPHYSICS (MINOR )3PracticalMinor-3Unit 6Mechanics lab ActivityTo determine the Moment of Inertia of a cylindrical/rectangular bar4
PhysicsANIMESH HALDARPHYSICS (MINOR )3PracticalMinor-3Unit 7Mechanics lab ActivityTo determine the value of g and velocity for a freely falling body using Digital Timing Technique4
PhysicsANIMESH HALDARPHYSICS (MINOR )3PracticalMinor-3Unit 8Mechanics lab ActivityTo determine the Coefficient of Viscosity of a viscous liquid using Stokes’ Law.4
PhysicsANIMESH HALDARPHYSICS (MINOR )3PracticalMinor-3Unit 9Mechanics lab ActivityTo determine the Coefficient of Viscosity of a viscous liquid using Stokes’ Law.4
PhysicsANIMESH HALDARPHYSICS (MINOR )3PracticalMinor-3Unit 10Mechanics lab ActivityTo determine the Young’s Modulus of a Bar by Flexure Method4
PhysicsANIMESH HALDARPHYSICS (MINOR )3PracticalMinor-3Unit 11Mechanics lab ActivityTo determine the Young’s Modulus of a Wire by Optical Lever Method4
PhysicsANIMESH HALDARPHYSICS (MINOR )3PracticalMinor-3Unit 12Mechanics lab ActivityTo determine the Modulus of Rigidity of a Wire by Maxwell’s needle4
PhysicsANIMESH HALDARPHYSICS (MINOR )3PracticalMinor-3Unit 13Mechanics lab ActivityTo determine the Young’s Modulus of a wire by Searle’s method4
PhysicsANIMESH HALDARPHYSICS (MINOR )3PracticalMinor-3Unit 14Mechanics lab ActivityTo determine the value of g using Bar Pendulum4
PhysicsANIMESH HALDARPHYSICS (MINOR )3PracticalMinor-3Unit 15Mechanics lab ActivityTo determine the value of g using Kater’s Pendulum.4
PhysicsANIMESH HALDARPHYSICS (MINOR )3SelectSelectUnit 3Vector IntegrationLine, surface and volume integrals of Vector fields4
PhysicsANIMESH HALDARPHYSICS (MINOR )3SelectSelectUnit 3Vector IntegrationFlux of a vector field. Gauss’ divergence theorem4
PhysicsANIMESH HALDARPHYSICS (MINOR )3SelectSelectUnit 3Vector IntegrationGreen’s and Stokes’ Theorems and their ap- plications (no rigorous proofs).4
PhysicsANIMESH HALDARPHYSICS (MINOR )3SelectSelectUnit 4Orthogonal Curvilinear CoordinatesDerivation of Gradient, Divergence, Curl and Laplacian in Cartesian coordinate system4
PhysicsANIMESH HALDARPHYSICS (MINOR )3SelectSelectUnit 4Orthogonal Curvilinear CoordinatesDerivation of Gradient, Divergence, Curl and Laplacian in Spherical and Cylindrical Coordinate Systems.4
PhysicsSUDIPTA KARMAKARCC-PHSH4PracticalCore-10Unit 7TO STUDY THE FREQUENCY RESPONSE OF VOLTAGE GAIN OF A RC COUPLED TRANSISTOR AMPLIFIER  4
PhysicsSUDIPTA KARMAKARCC-PHSH4PracticalCore-10Unit I  0
PhysicsSUDIPTA KARMAKARCC-PHSH4PracticalCore-10Unit 5To study V-i CHRACTERISTIC OF ZENER DIODE & VOLTAGE REGULATOR 2
PhysicsSUDIPTA KARMAKARCC-PHSH4PracticalCore-10Unit 6TO STUDY THE CHARACTERISTIC OF A BJT IN CE CONFIGARATION 2
PhysicsSUDIPTA KARMAKARCC-PHSH4PracticalCore-10Unit 8TO DESIGN AN WIEN BRIDGE OSCILLATOR FOR GIVEN FREQUENCY USING AN OP AMP 4
PhysicsSUDIPTA KARMAKARCC-PHSH4PracticalCore-10Unit 9TO STUDY THEANALOG TO DIGITAL CONVERTOR 2
PhysicsSUDIPTA KARMAKARCC-PHSH4PracticalCore-10Unit 10TO DRAW THE VI CHARACTERISTIC OF A FULL WAVE RECTIFIER WITH AND WITHOUT FILTER 4
PhysicsSUDIPTA KARMAKARCC-PHSH4PracticalCore-10Unit 4To investigate the use of an OPAMP as integrator & differentiator 2
PhysicsSUDIPTA KARMAKARCC-PHSH4PracticalCore-10Unit 5To study V-i CHRACTERISTIC OF PN DIODE 2
PhysicsSUDIPTA KARMAKARCC-PHSH4PracticalCore-10Unit 2To design an inverting & non inverting amplifier using OP AMP and study it frequency response 2
PhysicsSUDIPTA KARMAKARCC-PHSH4PracticalCore-10Unit 3To add two dc voltages using OPAMP in inverting and non inverting mode 2
PhysicsSUDIPTA KARMAKARCC-PHSH4PracticalCore-10Unit ITo design an inverting amplifier using OP AMP dc voltage of given gain 2
PhysicsSUDIPTA KARMAKARCC-PHSH4TheoryCore-10Unit 6FEEDBACK IN AMPLIFIEREffect of positive and negetive feedback on input and output impedance,gain stability,distortion noise1
PhysicsSUDIPTA KARMAKARCC-PHSH4TheoryCore-10Unit 10conversion R-2R LADDER ,A/D CONVERSION2
PhysicsSUDIPTA KARMAKARCC-PHSH4TheoryCore-10Unit 8OP-AMPCharacteristic of ideal op amp,slew rate , CMRR,Virtual ground2
PhysicsSUDIPTA KARMAKARCC-PHSH4TheoryCore-10Unit ISEMICONDUCTOR DIODESP & N type,energy level diagram,mechanism forward and reverse biased diod,drift velocity,derivation for barrier potential and barrier width5
PhysicsSUDIPTA KARMAKARCC-PHSH4TheoryCore-10Unit 9OP-AMPapplication of OP- AMP3
PhysicsSUDIPTA KARMAKARCC-PHSH4TheoryCore-10Unit 2TWO TERMINAL DEVICE & THEIR APPLICATIONHalf wave and full wave rectifier, calculation of ripple factor,zener diode and voltage regulation,bridge wave rectifier4
PhysicsSUDIPTA KARMAKARCC-PHSH4TheoryCore-10Unit 5AMPLIFIERSTransistor biasing,fixed biased,h parameter equivalent circuit,CE amplifiers using Hybrid model,input output impedance,current voltage and power gain,class A,B,C amplifiers3
PhysicsSUDIPTA KARMAKARCC-PHSH4TheoryCore-10Unit 6coupled amplifierRC coupled ampifiers and frequency response1
PhysicsSUDIPTA KARMAKARCC-PHSH4TheoryCore-10Unit 6FEEDBACK IN AMPLIFIEREffect of positive and negetive feedback on input and output impedance,gain stability,distortion noise1
PhysicsSUDIPTA KARMAKARCC-PHSH4TheoryCore-10Unit 7sinusoidal oscillatorsBarkhausen's criterion ,RC Phase shift oscilator hartley and colpitts oscilators2
PhysicsSUDIPTA KARMAKARCC-PHSH4TheoryCore-10Unit 8conversion R-2R LADDER ,A/D CONVERSION2
PhysicsSUDIPTA KARMAKARCC-PHSH4TheoryCore-10Unit ISEMICONDUCTOR DIODESP & N type,energy level diagram,mechanism forward and reverse biased diod,drift velocity,derivation for barrier potential and barrier width5
PhysicsSUDIPTA KARMAKARCC-PHSH4TheoryCore-10Unit 2BIPOLAR JUNCTION TRANSISTORPNP &NPN ,Characteristic od CB,CE,CC Configaration4
PhysicsSUDIPTA KARMAKARCC-PHSH4TheoryCore-10Unit 3BIPOLAR JUNCTION TRANSISTORPNP &NPN ,Characteristic od CB,CE,CC Configaration3
PhysicsANIMESH HALDARCC-PHSH4TheoryCore-8Unit IComplex AnalysisExamples of ana- lytic functions. Singular functions: poles and branch points, order of singularity, branch cuts. Integration of a function of a complex variable. Cauchy’s Inequality. 10
PhysicsISHITA DECC-PHSH4TheoryCore-8Unit 2Integrals TransformsFourier Transforms 15
PhysicsANIMESH HALDARCC-PHSH4TheoryCore-8Unit IComplex AnalysisBrief Revision of Complex Numbers and their Graphical Represen- tation. Euler’s formula, De Moivre’s theorem, Roots of Complex Numbers. Functions of Complex Variables. Analyticity and Cauchy-Riemann C10
PhysicsANIMESH HALDARCC-PHSH4TheoryCore-8Unit IComplex AnalysisCauchy’s In- tegral formula. Simply and multiply connected region. Laurent and Taylor’s expansion. Residues and Residue Theorem. Application in solving Definite Integrals.10
PhysicsANIMESH HALDARCC-PHSH4TheoryCore-8Unit 3Laplace Transforms Laplace Transform (LT) of Elementary functions. Properties of LTs: Change of Scale Theorem, Shifting Theorem4
PhysicsANIMESH HALDARCC-PHSH4TheoryCore-8Unit 3Laplace Transforms LTs of 1st and 2nd order Derivatives and Integrals of Functions, Derivatives and Integrals of LTs4
PhysicsISHITA DECC-PHSH4TheoryCore-8Unit 2Integrals TransformsLaplace Transforms(Inverse LT. Application of Laplace Transforms to 2nd order Differential Equations:) 7
PhysicsANIMESH HALDARCC-PHSH4TheoryCore-8Unit 3Laplace Transforms LT of Unit Step function, Dirac Delta function, Periodic Functions. Convolution Theorem2
PhysicsANIMESH HALDARCC-PHSH4PracticalCore-8Unit ISolving numerical problems using Scilab1. Calculation of error for each data point of observations recorded in experiments done in previous semesters (Hooke's Law & Diode characteristics).4
PhysicsANIMESH HALDARCC-PHSH4PracticalCore-8Unit 2Solving numerical problems using Scilab2. Calculation of least square fitting manually without giving weightage to error. Con- firmation of least square fitting of data through computer program,also plot the error at each data points6
PhysicsANIMESH HALDARCC-PHSH4PracticalCore-8Unit 3Solving numerical problems using Scilab3. Plotting of Bessel ,Evaluation of trigonometric functions e.g. sin ?, Given Bessel’s function at N points find its value at an intermediate point.(using at least two different formulas)6
PhysicsANIMESH HALDARCC-PHSH4PracticalCore-8Unit 4Solving numerical problems using Scilab4. Complex analysis: Integrate 1/(1+x^2) numerically and check with computer integra- tion(using At least two different formula)6
PhysicsANIMESH HALDARCC-PHSH4PracticalCore-8Unit 5Solving numerical problems using Scilab5. Compute the nth roots of unity for n = 2, 3, and 4 6
PhysicsANIMESH HALDARCC-PHSH4PracticalCore-8Unit 6Solving numerical problems using Scilab6. Find the two square roots of 5 + 12j.(using at least two different methods)6
PhysicsANIMESH HALDARCC-PHSH4PracticalCore-8Unit 7Solving numerical problems using Scilab7. Solve Kirchoff’s Current law for any node of an arbitrary circuit using Laplace’s transform.6
PhysicsANIMESH HALDARCC-PHSH4PracticalCore-8Unit 8Solving numerical problems using Scilab8. Solve Kirchoff’s Voltage law for any loop of an arbitrary circuit using Laplace’s transform6
PhysicsANIMESH HALDARCC-PHSH4PracticalCore-8Unit 9Solving numerical problems using Scilab9. Perform circuit analysis of a general LCR circuit using Laplace’s transform.6
PhysicsANIMESH HALDARCC-PHSH4SelectCore-8Unit 4tutorialinternal assessment1
PhysicsParimal SarkarCC-PHSH4PracticalCore-9Unit 2Elements of Modern Physics LABTo determine work function of material of filament of directly heated vacuum diode..4
PhysicsParimal SarkarCC-PHSH4PracticalCore-9Unit 2Elements of Modern Physics LABTo determine the Planck’s constant using LEDs of at least 4 different colours.4
PhysicsParimal SarkarCC-PHSH4TheoryCore-9Unit 4One dimensional infinitely rigid boxenergy eigenvalues and eigenfunctions10
PhysicsParimal SarkarCC-PHSH4TheoryCore-9Unit 3Two slit interference experiment with photonsSchrodinger equation10
PhysicsParimal SarkarCC-PHSH4PracticalCore-9Unit 3Elements of Modern Physics LABTo determine the wavelength of H-alpha emission line of Hydrogen atom.4
PhysicsParimal SarkarCC-PHSH4PracticalCore-9Unit 3Elements of Modern Physics LABTo determine the ionisation potential of mercury.4
PhysicsANIMESH HALDARCC-PHSH4TheoryCore-9Unit 7Radioactivitystability of the nucleus; Law of radioactive decay; Mean life and half- life; Alpha decay;2
PhysicsParimal SarkarCC-PHSH4PracticalCore-9Unit 4Elements of Modern Physics LABTo determine the absorption lines in the rotational spectrum of Iodine vapour.4
PhysicsANIMESH HALDARCC-PHSH4TheoryCore-9Unit 7RadioactivityBeta decay- energy released, spectrum and Pauli’s prediction of neu- trino; Gamma ray emission, energy-momentum conservation:4
PhysicsParimal SarkarCC-PHSH4PracticalCore-9Unit 4Elements of Modern Physics LABTo determine the value of e/m by (a) Magnetic focusing; or (b) Bar magnet.4
PhysicsParimal SarkarCC-PHSH4TheoryCore-9Unit 2Position measurementWave-particle duality5
PhysicsParimal SarkarCC-PHSH4TheoryCore-9Unit IPlanck’s quantumQuantum theory of Light14
PhysicsParimal SarkarCC-PHSH4TheoryCore-9Unit 5Size and structure of atomic nucleusNature of nuclear force6
PhysicsANIMESH HALDARCC-PHSH4TheoryCore-9Unit 5Atomic nucleusSize and structure of atomic nucleus and its relation with atomic weight; Impossibility of an electron being in the nucleus as a consequence of the uncertainty principle6
PhysicsParimal SarkarCC-PHSH4PracticalCore-9Unit IElements of Modern Physics LABMeasurement of Planck’s constant using black body radiation and photo-detector.2
PhysicsANIMESH HALDARCC-PHSH4TheoryCore-9Unit IAtomic nucleusNature of nuclear force, NZ graph, Liquid Drop model: semi-empirical mass formula and binding energy,4
PhysicsANIMESH HALDARCC-PHSH4TheoryCore-9Unit 6Atomic nucleusNuclear Shell Model (qualitative) and magic numbers6
PhysicsParimal SarkarCC-PHSH4PracticalCore-9Unit IElements of Modern Physics LABPhoto-electric effect: photo current versus intensity and wavelength of light; maximum energy of photo-electrons versus frequency of light.4
PhysicsANIMESH HALDARCC-PHSH4TheoryCore-9Unit 9LasersEinstein’s A and B coefficients. Metastable states. Spontaneous and Stimu- lated emissions. Optical Pumping and Population Inversion2
PhysicsParimal SarkarCC-PHSH4PracticalCore-9Unit 5Elements of Modern Physics LABTo setup the Millikan oil drop apparatus and determine the charge of an electron.4
PhysicsParimal SarkarCC-PHSH4PracticalCore-9Unit 5Elements of Modern Physics LABTo show the tunnelling effect in tunnel diode using I-V characteristics.4
PhysicsANIMESH HALDARCC-PHSH4TheoryCore-9Unit 7Radioactivityelectron-positron pair cre- ation by gamma photons in the vicinity of a nucleus.2
PhysicsParimal SarkarCC-PHSH4PracticalCore-9Unit 6Elements of Modern Physics LABTo determine the wavelength of laser source using diffraction of single slit.4
PhysicsParimal SarkarCC-PHSH4PracticalCore-9Unit 6Elements of Modern Physics LABTo determine the wavelength of laser source using diffraction of double slits.4
PhysicsANIMESH HALDARCC-PHSH4TheoryCore-9Unit 8 Nuclear Fission & Fusionmass deficit, relativity and generation of energy; Fission - nature of fragments and emission of neutrons2
PhysicsANIMESH HALDARCC-PHSH4TheoryCore-9Unit 8Nuclear Fission & FusionNuclear reactor: slow neutrons interacting with Uranium 235; Fusion and thermonuclear reactions driving stellar energy (brief qualitative discussions).2
PhysicsANIMESH HALDARCC-PHSH4TheoryCore-9Unit 9LasersThree-Level and Four-Level Lasers. Ruby Laser and He-Ne Laser.2
PhysicsSUDIPTA KARMAKARCC-PHSH4PracticalCore-9Unit 6TO DETERMINE THE IONISATION POTENTIAL OF MERCURY 2
PhysicsSUDIPTA KARMAKARCC-PHSH4PracticalCore-9Unit 7TO DETERMINE THE VALUE OF e/m by a magnetic focusing ,Bar magnet 3
PhysicsSUDIPTA KARMAKARCC-PHSH4PracticalCore-9Unit 8TO SHOW THE TUNNELLING EFFECT IN TUNNEL DIODE USING I -V CHARACTERISTICS 2
PhysicsSUDIPTA KARMAKARCC-PHSH4PracticalCore-9Unit 9TO DETERMINE THE WAVELENGTH OF LASER SOURCE USING DIFFRACTION OF SINGLE SLIT 2
PhysicsSUDIPTA KARMAKARCC-PHSH4PracticalCore-9Unit 10TO DETERMINE THE WAVELENGTH OF LASER SOURCE USING DIFFRACTION OF DOUBLE SLITS 3
PhysicsParimal SarkarCC-PHSH4TheorySEC2Unit IRenewable Energy and Energy Harvesting: Fossil fuels and Alternate Sources of energy3
PhysicsParimal SarkarCC-PHSH4TheorySEC2Unit 2Renewable Energy and Energy Harvesting:Solar energy3
PhysicsParimal SarkarCC-PHSH4TheorySEC2Unit 3Renewable Energy and Energy Harvesting:solar cell3
PhysicsParimal SarkarCC-PHSH4TheorySEC2Unit 4Renewable Energy and Energy Harvesting:Wind Energy harvesting3
PhysicsParimal SarkarCC-PHSH4TheorySEC2Unit 5Renewable Energy and Energy Harvesting:Ocean Energy3
PhysicsParimal SarkarCC-PHSH4TheorySEC2Unit 6Renewable Energy and Energy Harvesting:Tide characteristics and Statistics2
PhysicsParimal SarkarCC-PHSH4TheorySEC2Unit 7Renewable Energy and Energy Harvesting:Geothermal Energy2
PhysicsParimal SarkarCC-PHSH4TheorySEC2Unit 8Renewable Energy and Energy Harvesting:Hydro Energy2
PhysicsParimal SarkarCC-PHSH4TheorySEC2Unit 9Renewable Energy and Energy Harvesting:Piezoelectric Energy harvesting2
PhysicsParimal SarkarCC-PHSH4TheorySEC2Unit 10Renewable Energy and Energy Harvesting:Electromagnetic Energy Harvesting2
PhysicsANIMESH HALDARDSC-PHSG4PracticalDSC A4Unit IDSC 4A Lab (Experiments on Waves and Optics)1. To investigate the motion of coupled oscillators2
PhysicsANIMESH HALDARDSC-PHSG4PracticalDSC A4Unit IDSC 4A Lab (Experiments on Waves and Optics)2. To determine the frequency of an electric/mechanical tuning fork by Melde’s ex- periment and verify ?2-T law.2
PhysicsANIMESH HALDARDSC-PHSG4PracticalDSC A4Unit IDSC 4A Lab (Experiments on Waves and Optics)3. To determine the frequency of an electric/mechanical tuning fork by sonometer2
PhysicsANIMESH HALDARDSC-PHSG4PracticalDSC A4Unit 2DSC 4A Lab (Experiments on Waves and Optics)4. To study Lissajous Figures.2
PhysicsANIMESH HALDARDSC-PHSG4PracticalDSC A4Unit 2DSC 4A Lab (Experiments on Waves and Optics)5. Familiarization with Schuster‘s focussing; determination of angle of prism.2
PhysicsANIMESH HALDARDSC-PHSG4PracticalDSC A4Unit 2DSC 4A Lab (Experiments on Waves and Optics)6. To determine the Refractive Index of the Material of a given Prism using Sodium Light / Mercury source.2
PhysicsANIMESH HALDARDSC-PHSG4PracticalDSC A4Unit 3DSC 4A Lab (Experiments on Waves and Optics)7. To determine Dispersive Power of the Material of a given Prism using Mercury Light / Sodium source.2
PhysicsANIMESH HALDARDSC-PHSG4PracticalDSC A4Unit 3DSC 4A Lab (Experiments on Waves and Optics)8. To determine the value of Cauchy Constants of a material of a prism.2
PhysicsANIMESH HALDARDSC-PHSG4PracticalDSC A4Unit 3DSC 4A Lab (Experiments on Waves and Optics)9. To determine the Resolving Power of a Prism.2
PhysicsANIMESH HALDARDSC-PHSG4PracticalDSC A4Unit 4DSC 4A Lab (Experiments on Waves and Optics)10. To determine wavelength of sodium light using Fresnel Biprism2
PhysicsANIMESH HALDARDSC-PHSG4PracticalDSC A4Unit 4DSC 4A Lab (Experiments on Waves and Optics)11. To determine wavelength of sodium light using Newton’s Rings.2
PhysicsANIMESH HALDARDSC-PHSG4PracticalDSC A4Unit 4DSC 4A Lab (Experiments on Waves and Optics)12. To determine the wavelength of Laser light/sodium source using Diffraction of Sin- gle Slit.2
PhysicsANIMESH HALDARDSC-PHSG4PracticalDSC A4Unit 5DSC 4A Lab (Experiments on Waves and Optics)13. To determine wavelength of (1) Sodium and (2) spectrum of Mercury light using plane diffraction Grating.2
PhysicsANIMESH HALDARDSC-PHSG4PracticalDSC A4Unit 5DSC 4A Lab (Experiments on Waves and Optics)14. To determine the Resolving Power of a Plane Diffraction Grating2
PhysicsANIMESH HALDARDSC-PHSG4PracticalDSC A4Unit 5DSC 4A Lab (Experiments on Waves and Optics)15. To measure the intensity using photosensor and laser in diffraction patterns of single and double slits.2
PhysicsSUDIPTA KARMAKARDSC-PHSG4TheoryDSC A4Unit ISUPERPOSITION OF TWO COLLINEAR HARMONIC OSCILATIONLinearity & superposition principle ,oscillation have equal frequencies ,oscillations have different frequencies2
PhysicsSUDIPTA KARMAKARDSC-PHSG4TheoryDSC A4Unit 2SUPERPOSITION OF TWO PERPENDICULAR HARMONIC OSCILATIONSLISSAJOUS FIGURES WITH AN UN EQUAL FREQUENCY AND THEIR USES2
PhysicsSUDIPTA KARMAKARDSC-PHSG4TheoryDSC A4Unit 3WAVE MOTION Transverse waves on a string,travelling and standing waves on a string ,group and phase velocity. wave velocity3
PhysicsSUDIPTA KARMAKARDSC-PHSG4TheoryDSC A4Unit 4SOUNDSHM,Forced vibration ,resonance,intensity and loudness of sound,decibels,reverberation & time of reverbiration,absobtion coefficient sabine's formula4
PhysicsSUDIPTA KARMAKARDSC-PHSG4TheoryDSC A4Unit 5WAVE OPTICSElectromagnetic nature of light,wave front ,Huygens principle1
PhysicsSUDIPTA KARMAKARDSC-PHSG4TheoryDSC A4Unit 6interferenceDivision of wavefront &division of amplitude ,young"s double slit experiment,Lloyd'smirror & Fresnel biprism,stoke's treatment ,fringes of equal thickness4
PhysicsSUDIPTA KARMAKARDSC-PHSG4TheoryDSC A4Unit 7MICHELSON'S INTERFEROMETER Determination of wavelength,refractive index2
PhysicsSUDIPTA KARMAKARDSC-PHSG4TheoryDSC A4Unit 8DIFFRACTIONFraunhofer diffraction,single slit,double slit,multiple slits,diffraction grating,Fresnel diffraction half period zone ,zone plate,fresnel diffraction pattern of a straight edge4
PhysicsSUDIPTA KARMAKARDSC-PHSG4TheoryDSC A4Unit 9POLARIZATION Transverse nature of light waves,plane polarized light,circular & elliptical polarization4
PhysicsISHITA DEDSC-PHSG4PracticalDSC A4Unit 2DSC 4A Lab 5. Familiarization with Schuster‘s focussing; determination of angle of prism.4
PhysicsISHITA DEDSC-PHSG4PracticalDSC A4Unit 2DSC 4A Lab 6. To determine the Refractive Index of the Material of a given Prism using Sodium Light / Mercury source.4
PhysicsISHITA DEDSC-PHSG4PracticalDSC A4Unit 2DSC 4A Lab 11. To determine wavelength of sodium light using Newton’s Rings4
PhysicsISHITA DEDSC-PHSG4PracticalDSC A4Unit 2DSC 4A Lab 9. To determine the Resolving Power of a Prism.4
PhysicsISHITA DEDSC-PHSG4PracticalDSC A4Unit 2DSC 4A Lab 7. To determine Dispersive Power of the Material of a given Prism using Mercury Light / Sodium source.4
PhysicsISHITA DEGE-PHSH4PracticalGE 4Unit 4GE Lab : Electricity, Magnetism and EMT 9. To determine the value of a Low Resistance by Carey Foster’s Bridge. 10. To verify the Thevenin and Norton theorems. 11. To verify the Superposition, and Maximum Power Transfer Theorems.8
PhysicsISHITA DEGE-PHSH4PracticalGE 4Unit 4GE Lab : Electricity, Magnetism and EMT 1. To use a Multimeter for measuring (a) Resistances, (b) AC and DC Voltages, (c) DC Current, and (d) checking electrical fuses. 2. To determine a Low Resistance by fall of potential method.6
PhysicsISHITA DEGE-PHSH4PracticalGE 4Unit 4GE Lab : Electricity, Magnetism and EMT 5. To study the Characteristics of a Series RC circuit. 6. To study the Characteristics of a Series LR circuit.8
PhysicsISHITA DEGE-PHSH4PracticalGE 4Unit 4GE Lab : Electricity, Magnetism and EMT 1. To use a Multimeter for measuring (a) Resistances, (b) AC and DC Voltages, (c) DC Current, and (d) checking electrical fuses. 2. To determine a Low Resistance by fall of potential method.6
PhysicsISHITA DEGE-PHSH4PracticalGE 4Unit 4GE Lab : Electricity, Magnetism and EMT 7. To study a series LCR circuit LCR circuit and determine its (a) Resonant frequency, (b) Quality factor. 8. To study a parallel LCR circuit and determine its (a) Anti-resonant frequency and (b) Qual5
PhysicsParimal SarkarGE-PHSH4TheoryGE 4Unit IElectricity, Magnetism and EMT:Vector Analysis2
PhysicsParimal SarkarGE-PHSH4TheoryGE 4Unit 2Electricity, Magnetism and EMT:ElectrostaticsGauss’s theorem of electrostatics8
PhysicsParimal SarkarGE-PHSH4TheoryGE 4Unit 3Electricity, Magnetism and EMT:Electrostaticselectric dipole; Capacitor8
PhysicsParimal SarkarGE-PHSH4TheoryGE 4Unit 5Electricity, Magnetism and EMT: Maxwell’s equations and Electromagnetic wave propagationMaxwell’s equations8
PhysicsParimal SarkarGE-PHSH4TheoryGE 4Unit 6Electricity, Magnetism and EMT: Maxwell’s equations and Electromagnetic wave propagationelectromagnetic wave propagation8
PhysicsParimal SarkarGE-PHSH4TheoryGE 4Unit 7Electricity, Magnetism and EMT: Electrical Circuitsons and Electromagnetic wave propagationAC Circuits3
PhysicsParimal SarkarGE-PHSH4TheoryGE 4Unit 8Electricity, Magnetism and EMT: Electrical Circuitsons and Electromagnetic wave propagationLCR Circuit3
PhysicsANIMESH HALDARGE-PHSH4TheoryGE 4Unit 2MagnetismDivergence and Curl of B4
PhysicsANIMESH HALDARGE-PHSH4PracticalGE 4Unit 3Electricity & Magnetism Lab Activity 1. To use a Multimeter for measuring (a) Resistances, (b) AC and DC Voltages, (c) DC Current, and (d) checking electrical fuses.4
PhysicsANIMESH HALDARGE-PHSH4PracticalGE 4Unit 3Electricity & Magnetism Lab Activity 5. To study the Characteristics of a Series RC circuit4
PhysicsANIMESH HALDARGE-PHSH4PracticalGE 4Unit 4Electricity & Magnetism Lab Activity 6. To study the Characteristics of a Series LR circuit4
PhysicsANIMESH HALDARGE-PHSH4PracticalGE 4Unit 4Electricity & Magnetism Lab Activity 7. To study a series LCR circuit LCR circuit and determine its (a) Resonant frequency, (b) Quality factor.4
PhysicsANIMESH HALDARGE-PHSH4PracticalGE 4Unit 4Electricity & Magnetism Lab Activity 8. To study a parallel LCR circuit and determine its (a) Anti-resonant frequency and (b) Quality factor Q.4
PhysicsANIMESH HALDARGE-PHSH4PracticalGE 4Unit 5Electricity & Magnetism Lab Activity 9. To determine the value of a Low Resistance by Carey Foster’s Bridge4
PhysicsANIMESH HALDARGE-PHSH4PracticalGE 4Unit 5Electricity & Magnetism Lab Activity 10. To verify the Thevenin and Norton theorems4
PhysicsANIMESH HALDARGE-PHSH4PracticalGE 4Unit 5Electricity & Magnetism Lab Activity 11. To verify the Superposition, and Maximum Power Transfer Theorems4
PhysicsANIMESH HALDARGE-PHSH4PracticalGE 4Unit 2Electricity & Magnetism Lab Activity 1. To use a Multimeter for measuring (a) Resistances, (b) AC and DC Voltages, (c) DC Current, and (d) checking electrical fuses.4
PhysicsANIMESH HALDARGE-PHSH4PracticalGE 4Unit 2Electricity & Magnetism Lab Activity 2. To determine a Low Resistance by fall of potential method4
PhysicsANIMESH HALDARGE-PHSH4TheoryGE 4Unit 3MagnetismAmpere’s circuital law. Magnetic properties of materials: Magnetic intensity, magnetic induction, permeability, magnetic susceptibility4
PhysicsANIMESH HALDARGE-PHSH4TheoryGE 4Unit 3MagnetismAmpere’s circuital law. Magnetic properties of materials: Magnetic intensity, magnetic induction, permeability, magnetic susceptibility2
PhysicsANIMESH HALDARGE-PHSH4TheoryGE 4Unit 4Ampere’s circuital law. Magnetic properties of materials: Magnetic intensity, magnetic induction, permeability, magnetic susceptibilityFaraday’s laws of electromagnetic induction, Lenz’s law, self and mutual inductance, L of single coil, M of two coils. Energy stored in magnetic 6
PhysicsANIMESH HALDARGE-PHSH4PracticalGE 4Unit 3practicals on Electricity and MagnetismAnalysis of CR circcuit4
PhysicsANIMESH HALDARGE-PHSH4PracticalGE 4Unit 2practicals on Electricity and MagnetismDe Sauty Bridge4
PhysicsANIMESH HALDARGE-PHSH4TheorySelectUnit IMagnetic fieldBiot Savart Law1
PhysicsISHITA DECC-PHSH5TheoryCore-11Unit IQUANTUM MECHANICS AND APPLICATIONSTIME DEPENDENT SCHRDINGER EQUATION4
PhysicsISHITA DECC-PHSH5TheoryCore-11Unit 2QUANTUM MECHANICS AND APPLICATIONSTIME INDEPENDENT SCHRDINGER EQUATION4
PhysicsISHITA DECC-PHSH5TheoryCore-11Unit 3QUANTUM MECHANICS AND APPLICATIONSGENERAL DISCUSSION OF BOUND STATE IN A ARBITRARY POTENTIAL4
PhysicsANIMESH HALDARCC-PHSH5TheoryCore-11Unit IQuantum Mechanicswave function and its property2
PhysicsANIMESH HALDARCC-PHSH5PracticalCore-11Unit IProgramming on Quantum Mechanics & Applications using scilabs wave Schroodinger equation for hydrogen atom5
PhysicsANIMESH HALDARCC-PHSH5PracticalCore-11Unit 2Programming on Quantum Mechanics & Applications using scilabs wave Schroodinger equation in Coulomb potential5
PhysicsANIMESH HALDARCC-PHSH5PracticalCore-11Unit 3Programming on Quantum Mechanics & Applications using scilabs wave Schroodinger equation in anharmonic potential5
PhysicsANIMESH HALDARCC-PHSH5PracticalCore-11Unit 4Programming on Quantum Mechanics & Applications using scilabs wave Schroodinger equation in Morse Potential5
PhysicsANIMESH HALDARCC-PHSH5PracticalCore-11Unit 5Programming on Quantum Mechanics & Applications using scilabDiscrete energy levels in Hydrogen atoms5
PhysicsParimal SarkarCC-PHSH5TheoryCore-11Unit IQuantum Mechanics and Applications: Quantum theory of hydrogen-like atomsTime independent Schrodinger equation in spherical polar coordinates; separation of variables for second order partial differential equation;1
PhysicsParimal SarkarCC-PHSH5TheoryCore-11Unit 2Quantum Mechanics and Applications: Quantum theory of hydrogen-like atomsangular momentum operator and quantum numbers; Radial wavefunctions from Frobenius method; shapes of the probability densities for ground and first excited states;2
PhysicsParimal SarkarCC-PHSH5TheoryCore-11Unit 3Quantum Mechanics and Applications: Quantum theory of hydrogen-like atomsOrbital angular momentum quantum numbers l and m; s, p, d, …shells.2
PhysicsParimal SarkarCC-PHSH5TheoryCore-11Unit 4Quantum Mechanics and Applications: Atoms in Electric and Magnetic FieldsElectron angular momentum. Space quantisation. Electron Spin and Spin Angular Momentum. Larmor’s Theorem. Spin Magnetic Moment.2
PhysicsParimal SarkarCC-PHSH5TheoryCore-11Unit 5Quantum Mechanics and Applications: Atoms in Electric and Magnetic FieldsStern-Gerlach Experiment. Zeeman Effect: Electron Magnetic Moment and Magnetic Energy, Gyromagnetic Ratio and Bohr Magneton.2
PhysicsParimal SarkarCC-PHSH5TheoryCore-11Unit 6Quantum Mechanics and Applications: Atoms in External Magnetic FieldsNormal and Anomalous Zeeman Effect. Paschen Back and Stark Effect (Qualitative Discussion only).2
PhysicsParimal SarkarCC-PHSH5TheoryCore-11Unit 7Quantum Mechanics and Applications: Atoms in External Magnetic FieldsNormal and Anomalous Zeeman Effect. Paschen Back and Stark Effect (Qualitative Discussion only).2
PhysicsParimal SarkarCC-PHSH5TheoryCore-11Unit 8Quantum Mechanics and Applications: Many electron atoms2
PhysicsParimal SarkarCC-PHSH5TheoryCore-11Unit 8Quantum Mechanics and Applications: Many electron atomsPauli’s Exclusion Principle. Symmetric and Antisymmetric Wave Functions. Periodic table. Fine structure.2
PhysicsParimal SarkarCC-PHSH5TheoryCore-11Unit 9Quantum Mechanics and Applications: Many electron atomsSpin orbit coupling. Spectral Notations for Atomic States. Total angular momentum. Vector Model.2
PhysicsParimal SarkarCC-PHSH5TheoryCore-11Unit 10Quantum Mechanics and Applications: Many electron atomsSpin-orbit coupling in atoms- L-S and J-J couplings. Hund’s Rule. Term symbols. Spectra of Hydrogen and Alkali Atoms (Na etc.).2
PhysicsParimal SarkarCC-PHSH5TheoryCore-12Unit ISolid State Physics:Ferroelectric Properties of MaterialsStructural phase transition, Classification of crystals, Piezoelectric effect, Pyroelectric effect,2
PhysicsParimal SarkarCC-PHSH5TheoryCore-12Unit 2Solid State Physics:Ferroelectric Properties of MaterialsFerroelectric effect, Electrostrictive effect, Curie-Weiss Law, Ferroelectric domains, PE hysteresis loop.4
PhysicsParimal SarkarCC-PHSH5TheoryCore-12Unit 3Solid State Physics:Elementary band theoryKronig Penny model. Band Gap. Conductor, Semiconductor (P and N type) and insulator.4
PhysicsParimal SarkarCC-PHSH5TheoryCore-12Unit 4Solid State Physics:Elementary band theoryConductivity of Semiconductor, mobility, Hall Effect. Measurement of conductivity (04 probe method) and Hall coefficient.2
PhysicsParimal SarkarCC-PHSH5TheoryCore-12Unit 5Solid State Physics:SuperconductivityExperimental Results. Critical Temperature. Critical magnetic field.3
PhysicsParimal SarkarCC-PHSH5TheoryCore-12Unit 6Solid State Physics:SuperconductivityMeissner effect. Type I and type II Superconductors,3
PhysicsParimal SarkarCC-PHSH5TheoryCore-12Unit 7Solid State Physics:SuperconductivityLondon’s Equation and Penetration Depth. Isotope effect.3
PhysicsParimal SarkarCC-PHSH5TheoryCore-12Unit 8Solid State Physics:SuperconductivityIdea of BCS theory (No derivation)2
PhysicsParimal SarkarCC-PHSH5PracticalCore-12Unit IPhysics Lab - C 12 Lab : Solid State Physics1. Measurement of susceptibility of paramagnetic solution (Quinck‘s Tube Method).2
PhysicsParimal SarkarCC-PHSH5PracticalCore-12Unit 2Physics Lab - C 12 Lab : Solid State Physics2. To measure the Magnetic susceptibility of Solids.2
PhysicsParimal SarkarCC-PHSH5PracticalCore-12Unit 3Physics Lab - C 12 Lab : Solid State Physics3. To determine the Coupling Coefficient of a Piezoelectric crystal.2
PhysicsParimal SarkarCC-PHSH5PracticalCore-12Unit 4Physics Lab - C 12 Lab : Solid State Physics4. To measure the Dielectric Constant of a dielectric Materials with frequency.2
PhysicsParimal SarkarCC-PHSH5PracticalCore-12Unit 5Physics Lab - C 12 Lab : Solid State Physics5. To determine the complex dielectric constant and plasma frequency of metal using Surface Plasmon resonance (SPR).2
PhysicsParimal SarkarCC-PHSH5PracticalCore-12Unit 6Physics Lab - C 12 Lab : Solid State Physics6. To determine the refractive index of a dielectric layer using SPR.2
PhysicsParimal SarkarCC-PHSH5PracticalCore-12Unit 7Physics Lab - C 12 Lab : Solid State Physics7. To study the PE Hysteresis loop of a Ferroelectric Crystal.2
PhysicsParimal SarkarCC-PHSH5PracticalCore-12Unit 8Physics Lab - C 12 Lab : Solid State Physics8. To draw the BH curve of Fe and determine energy loss from Hysteresis.2
PhysicsParimal SarkarCC-PHSH5PracticalCore-12Unit 9Physics Lab - C 12 Lab : Solid State Physics9. To measure the resistivity of a semiconductor (Ge) with temperature by four-probe method (room temperature to 150 C) and to determine its band gap.2
PhysicsParimal SarkarCC-PHSH5PracticalCore-12Unit 10Physics Lab - C 12 Lab : Solid State Physics10. To determine the Hall coefficient of a semiconductor sample.2
PhysicsSUDIPTA KARMAKARCC-PHSH5TheoryCore-12Unit ICRYSTAL STRUCTURESolids amorphous,cryastalline material,types of lattice,unit cell,miler indices,bragg's law,atomic and geometrical factor6
PhysicsSUDIPTA KARMAKARCC-PHSH5TheoryCore-12Unit 2ELEMENTARY LATTICE DYANAMICSLattice vibration,phonons,linear monoatomic and Diatomic chains.acoustical and optical phonons,dulong and petit's law,Einstein and debye theories of specific heat of solids 6
PhysicsSUDIPTA KARMAKARCC-PHSH5TheoryCore-12Unit 3Magnetics properties of matterDia,para,ferromagnetic material,quantum mechanical treatment of paramagnetism,curie's law,weiss's theory of Feromagnetism and feromagnetic domain,discuss of BH curve,Hysteresis and energy loss6
PhysicsSUDIPTA KARMAKARCC-PHSH5TheoryCore-12Unit 4Dielectric properties of materialspolarisation,electric susceptibility,polarisability,clausius mosotti equation,clasical theory of electric polarisability,normal and anomalous dispersion,complex dielectric constant,optical phenomena,a6
PhysicsANIMESH HALDARCC-PHSH5TheoryDSE1Unit IAnalog Pulse Modulation modulation and detection technique for PAM only, Multiplexing4
PhysicsANIMESH HALDARCC-PHSH5TheoryDSE1Unit 2Digital Pulse Modulation Need for digital transmission, Pulse Code Modulation,Digital Carrier Modulation Techniques4
PhysicsANIMESH HALDARCC-PHSH5TheoryDSE1Unit 2Digital Pulse Modulation Quantisation and Encoding. Concept of Am- plitude Shift Keying (ASK), Frequency Shift Keying (FSK), 4
PhysicsANIMESH HALDARCC-PHSH5TheoryDSE1Unit 2Digital Pulse Modulation Phase Shift Keying (PSK), and Binary Phase Shift Keying (BPSK). 2
PhysicsANIMESH HALDARCC-PHSH5TheoryDSE1Unit 3Satellite Communication Introduction, need, Geosynchronous satellite orbits, geosta- tionary satellite advantages of geostationary satellites4
PhysicsANIMESH HALDARCC-PHSH5TheoryDSE1Unit 3Satellite Communication Satellite visibility, transponders (C - Band), path loss, ground station, simplified block diagram of earth station4
PhysicsANIMESH HALDARCC-PHSH5TheoryDSE1Unit 3Satellite Communication Uplink and downlink. 2
PhysicsANIMESH HALDARCC-PHSH5TheoryDSE1Unit 4Mobile Telephony System Basic concept of mobile communication, frequency bands used in mobile communication 2
PhysicsANIMESH HALDARCC-PHSH5TheoryDSE1Unit 4Mobile Telephony System , concept of cell sectoring and cell splitting, SIM number, IMEI number, need for data encryption3
PhysicsANIMESH HALDARCC-PHSH5TheoryDSE1Unit 4Mobile Telephony System architecture (block diagram) of mobile com- munication network, idea of GSM, CDMA, TDMA and FDMA technologies3
PhysicsANIMESH HALDARCC-PHSH5TheoryDSE1Unit 4Mobile Telephony System simplified block diagram of mobile phone handset, 2G, 3G and 4G concepts (qualitative only).2
PhysicsANIMESH HALDARCC-PHSH5TheoryDSE1Unit 4Mobile Telephony System GPS navigation system (qualitative idea only)2
PhysicsANIMESH HALDARCC-PHSH5TheoryDSE1Unit IAnalog Pulse Modulation Channel capacity, Sampling theorem2
PhysicsParimal SarkarCC-PHSH5TheoryDSE1Unit IPhysics - DSE : Communication Electronics: Electronic communicationIntroduction to communication – means and modes. Need for modulation. Block diagram of an electronic communication system.2
PhysicsParimal SarkarCC-PHSH5TheoryDSE1Unit 2Physics - DSE : Communication Electronics: Electronic communicationBrief idea of frequency allocation for radio communication system in India (TRAI). Electromagnetic communication spectrum,2
PhysicsParimal SarkarCC-PHSH5TheoryDSE1Unit 3Physics - DSE : Communication Electronics: Electronic communicationband designations and usage. Channels and base-band signals. Concept of Noise, signal-to-noise (S/N) ratio.3
PhysicsParimal SarkarCC-PHSH5TheoryDSE1Unit 4Physics - DSE : Communication Electronics: Analog ModulationAmplitude Modulation, modulation index and frequency spectrum. Generation of AM (Emitter Modulation), Amplitude Demodulation (diode detector),3
PhysicsParimal SarkarCC-PHSH5TheoryDSE1Unit 5Physics - DSE : Communication Electronics: Analog ModulationConcept of Single side band generation and detection. Frequency Modulation (FM) and Phase Modulation (PM),3
PhysicsParimal SarkarCC-PHSH5TheoryDSE1Unit 6Physics - DSE : Communication Electronics: Analog Modulationmodulation index and frequency spectrum, equivalence between FM and PM, Generation of FM using VCO3
PhysicsParimal SarkarCC-PHSH5TheoryDSE1Unit 7Physics - DSE : Communication Electronics: Analog ModulationFM detector (slope detector), Qualitative idea of Super heterodyne receiver.2
PhysicsParimal SarkarCC-PHSH5TheoryDSE1Unit 8Physics - DSE : Communication Electronics: Analog Pulse ModulationChannel capacity, Sampling theorem, Basic Principles-PAM,2
PhysicsParimal SarkarCC-PHSH5TheoryDSE1Unit 9Physics - DSE : Communication Electronics: Analog Pulse ModulationPWM, PPM, modulation and detection technique for PAM only, Multiplexing.2
PhysicsANIMESH HALDARCC-PHSH5TheoryDSE1Unit IAnalog Pulse Modulation Basic Principles-PAM, PWM, PPM3
PhysicsSUDIPTA KARMAKARCC-PHSH5PracticalDSE1Unit ITo design an amplitude modulator using transistor 0
PhysicsSUDIPTA KARMAKARCC-PHSH5PracticalDSE1Unit 2To study FM GENERATOR AND DETECTOR CIRCUIT 0
PhysicsSUDIPTA KARMAKARCC-PHSH5PracticalDSE1Unit 3To study AM TRANSMITTER AND RECEIVER 0
PhysicsSUDIPTA KARMAKARCC-PHSH5PracticalDSE1Unit 4To study FM TRANSMITTER AND RECEIVER 0
PhysicsSUDIPTA KARMAKARCC-PHSH5PracticalDSE1Unit 5To study PULSE AMPLITUDE MODULATION 0
PhysicsSUDIPTA KARMAKARCC-PHSH5PracticalDSE1Unit 6To study PULSE WIDTH MODULATION 0
PhysicsSUDIPTA KARMAKARCC-PHSH5PracticalDSE1Unit 7To study PULSE POSITION MODULATION 0
PhysicsSUDIPTA KARMAKARCC-PHSH5PracticalDSE1Unit 8To study ASK/PSK/FSK MODULATOR 0
PhysicsParimal SarkarCC-PHSH5TheoryDSE2Unit IPhysics - DSE : Classical Dynamics: Classical Mechanics of Point ParticlesReview of Newtonian Mechanics; Application to the motion of a charge particle in external electric and magnetic fields- motion in uniform electric field, magnetic field- gyroradius and gyrofrequency, 2
PhysicsParimal SarkarCC-PHSH5TheoryDSE2Unit 2Physics - DSE : Classical Dynamics: Classical Mechanics of Point ParticlesGeneralised coordinates and velocities, Hamilton’s principle, Lagrangian and the Euler-Lagrange equations, one-dimensional examples of the Euler- Lagrange equations- one-dimensional Simple Harmonic Os2
PhysicsParimal SarkarCC-PHSH5TheoryDSE2Unit 3Physics - DSE : Classical Dynamics: Classical Mechanics of Point Particlesapplications to simple systems such as coupled oscillators Canonical momenta and Hamiltonian. Hamilton’s equations of motion.2
PhysicsParimal SarkarCC-PHSH5TheoryDSE2Unit 4Physics - DSE : Classical Dynamics: Classical Mechanics of Point ParticlesApplications: Hamiltonian for a harmonic oscillator, solution of Hamilton’s equation for Simple Harmonic Oscillations; particle in a central force field- conservation of angular momentum and energy.2
PhysicsParimal SarkarCC-PHSH5TheoryDSE2Unit 5Physics - DSE : Classical Dynamics: Small Amplitude Oscillations Point ParticlesMinima of potential energy and points of stable equilibrium, expansion of the potential energy around a minimum, small amplitude oscillations about the minimum,2
PhysicsParimal SarkarCC-PHSH5TheoryDSE2Unit 6Physics - DSE : Classical Dynamics: Small Amplitude Oscillations Point Particlesnormal modes of oscillations example of N identical masses connected in a linear fashion to (N - 1) - identical springs.2
PhysicsParimal SarkarCC-PHSH5TheoryDSE2Unit 7Physics - DSE : Classical Dynamics: Special Theory of Relativityillations Point ParticlesPostulates of Special Theory of Relativity. Lorentz Transformations. Minkowski space. The invariant interval, light cone and world lines.2
PhysicsParimal SarkarCC-PHSH5TheoryDSE2Unit 8Physics - DSE : Classical Dynamics: Special Theory of Relativityillations Point ParticlesSpace-time diagrams. Time -dilation, length contraction and twin paradox. Four-vectors: space-like, time-like and light-like. Four-velocity and acceleration. Metric and alternating tensors.2
PhysicsParimal SarkarCC-PHSH5TheoryDSE2Unit 9Physics - DSE : Classical Dynamics: Special Theory of Relativityillations Point ParticlesFour-momentum and energy-momentum relation. Doppler effect from a four-vector perspective. Concept of four-force. Conservation of four-momentum.2
PhysicsParimal SarkarCC-PHSH5TheoryDSE2Unit 10Physics - DSE : Classical Dynamics: Special Theory of Relativityillations Point ParticlesRelativistic kinematics. Application to two-body decay of an unstable particle.2
PhysicsParimal SarkarCC-PHSH5TheoryDSE2Unit 11Physics - DSE : Classical Dynamics: Fluid DynamicsDensity  and pressure P in a fluid, an element of fluid and its velocity, continuity equation and mass conservation, stream-lined motion, laminar flow,2
PhysicsParimal SarkarCC-PHSH5TheoryDSE2Unit 12Physics - DSE : Classical Dynamics: Fluid DynamicsPoiseuille’s equation for flow of a liquid through a pipe, Navier-Stokes equation, qualitative description of turbulence, Reynolds number.2
PhysicsISHITA DEDSC-PHSG5TheoryDSE B1Unit 3DSE-Digital and analog circuit and instrumentation semiconductor devices and application4
PhysicsISHITA DEDSC-PHSG5TheoryDSE B1Unit 4DSE-Digital and analog circuit and instrumentation transistor4
PhysicsISHITA DEDSC-PHSG5TheoryDSE B1Unit 4DSE-Digital and analog circuit and instrumentation transistor4
PhysicsISHITA DEDSC-PHSG5TheoryDSE B1Unit 5DSE-Digital and analog circuit and instrumentation digital electronics ,CRO4
PhysicsISHITA DEDSC-PHSG5PracticalDSE B1Unit ITO MINIMIZE LOGIC GATEdigital electronics ,CRO2
PhysicsISHITA DEDSC-PHSG5PracticalDSE B1Unit 2PN JUNCTION DIODEdigital electronics ,CRO2
PhysicsISHITA DEDSC-PHSG5PracticalDSE B1Unit 3OPAMP INVERTINGdigital electronics ,CRO2
PhysicsISHITA DEDSC-PHSG5PracticalDSE B1Unit 3OPAMP NON-INVERTINGdigital electronics ,CRO2
PhysicsISHITA DEDSC-PHSG5PracticalDSE B1Unit 4HALF ADDERdigital electronics ,CRO2
PhysicsISHITA DEDSC-PHSG5PracticalDSE B1Unit 4FULL ADDERdigital electronics ,CRO2
PhysicsISHITA DEDSC-PHSG5PracticalDSE B1Unit 4AND,OR,NOT,XOR,XNOR GATEdigital electronics ,CRO2
PhysicsISHITA DEDSC-PHSG5PracticalDSE B1Unit 4ZENER DIODEdigital electronics ,CRO2
PhysicsParimal SarkarDSC-PHSG5PracticalDSE C1Unit IPhysics Lab- DSE Lab : Digital, Analog and Instrumentation:Lectures 1. To measure (a) Voltage, and (b) Frequency of a periodic waveform using a CRO.2
PhysicsParimal SarkarDSC-PHSG5PracticalDSE C1Unit IPhysics Lab- DSE Lab : Digital, Analog and Instrumentation:2. To verify and design AND, OR, NOT and XOR gates using NAND gates.2
PhysicsISHITA DEDSC-PHSG5TheorySEC3Unit ISECPHSG3;BASIC INSTRUMENTATION SKILLSCRO2
PhysicsISHITA DEDSC-PHSG5TheorySEC3Unit 2SECPHSG3;BASIC INSTRUMENTATION SKILLSCRO2
PhysicsISHITA DEDSC-PHSG5TheorySEC3Unit 3SECPHSG3;BASIC INSTRUMENTATION SKILLSSIGNAL GENERATORS2
PhysicsISHITA DEDSC-PHSG5TheorySEC3Unit 4SECPHSG3;BASIC INSTRUMENTATION SKILLSSIGNAL GENERATORS2
PhysicsISHITA DEDSC-PHSG5TheorySEC3Unit 5SECPHSG3;BASIC INSTRUMENTATION SKILLSMULTIMETER, MEASUREMENT2
PhysicsParimal SarkarCC-PHSH6TheoryCore-13Unit 6Electromagnetic Theory:Polarisation of Electromagnetic WavesBabinet Compensator and its Uses.6
PhysicsParimal SarkarCC-PHSH6TheoryCore-13Unit 4Electromagnetic Theory:Polarisation of Electromagnetic WavesLight Propagation in Uniaxial Crystal. Double Refraction.5
PhysicsParimal SarkarCC-PHSH6PracticalCore-13Unit IElectromagnetic Theory LABElectromagnetic WavesTo verify the law of Malus for plane polarized light.5
PhysicsParimal SarkarCC-PHSH6TheoryCore-13Unit 6Electromagnetic Theory:Polarisation of Electromagnetic WavesBabinet Compensator and its Uses.6
PhysicsParimal SarkarCC-PHSH6PracticalCore-13Unit 5Electromagnetic Theory LABElectromagnetic WavesTo study the reflection, refraction of microwaves.5
PhysicsParimal SarkarCC-PHSH6PracticalCore-13Unit 6Electromagnetic Theory LABElectromagnetic WavesTo study Polarisation and double slit interference in microwaves.5
PhysicsParimal SarkarCC-PHSH6PracticalCore-13Unit 7Electromagnetic Theory LABElectromagnetic WavesTo determine the refractive index of liquid by total internal reflection using Wollaston’s air-film.5
PhysicsParimal SarkarCC-PHSH6PracticalCore-13Unit 2Electromagnetic Theory LABElectromagnetic WavesTo determine the specific rotation of sugar solution using Polarimeter.5
PhysicsParimal SarkarCC-PHSH6PracticalCore-13Unit 3Electromagnetic Theory LABElectromagnetic WavesTo analyse elliptically polarised Light by using a Babinet’s compensator.5
PhysicsParimal SarkarCC-PHSH6PracticalCore-13Unit 4Electromagnetic Theory LABElectromagnetic WavesTo study dependence of radiation on angle for a simple Dipole antenna.5
PhysicsParimal SarkarCC-PHSH6PracticalCore-13Unit 5Electromagnetic Theory LABElectromagnetic WavesTo determine the wavelength and velocity of ultrasonic waves in a liquid (Kerosene Oil, Xylene, etc.) by studying the diffraction through ultrasonic grating.5
PhysicsParimal SarkarCC-PHSH6TheoryCore-13Unit 3Electromagnetic Theory:EM Wave in Bounded MediaFresnel’s Formulae, Brewster’s law.5
PhysicsParimal SarkarCC-PHSH6TheoryCore-13Unit 4Electromagnetic Theory:Polarisation of Electromagnetic WavesPropagation of E.M. Waves in Anisotropic Media5
PhysicsParimal SarkarCC-PHSH6TheoryCore-13Unit 2Electromagnetic Theory:EM Wave Propagation in Unbounded MediaPlane EM waves through vacuum and isotropic dielectric medium,5
PhysicsParimal SarkarCC-PHSH6TheoryCore-13Unit 2Electromagnetic Theory:EM Wave Propagation in Unbounded MediaPropagation through conducting media5
PhysicsParimal SarkarCC-PHSH6TheoryCore-13Unit 3Electromagnetic Theory:EM Wave in Bounded MediaBoundary conditions5
PhysicsParimal SarkarCC-PHSH6TheoryCore-13Unit IElectromagnetic Theory: Maxwell EquationsWave Equations6
PhysicsParimal SarkarCC-PHSH6TheoryCore-13Unit IElectromagnetic Theory: Maxwell EquationsReview of Maxwell’s equations12
PhysicsParimal SarkarCC-PHSH6PracticalCore-13Unit 8Electromagnetic Theory LABElectromagnetic WavesTo determine the refractive Index of (1) glass and (2) a liquid by total internal reflection using a Gaussian eyepiece.5
PhysicsParimal SarkarCC-PHSH6PracticalCore-13Unit 9Electromagnetic Theory LABElectromagnetic WavesTo study the polarisation of light by reflection and determine the polarising angle for air-glass interface.5
PhysicsParimal SarkarCC-PHSH6PracticalCore-13Unit 10Electromagnetic Theory LABElectromagnetic WavesTo verify the Stefan‘s law of radiation.. To determine the Boltzmann constant using V-I characteristics of PN junction diode.5
PhysicsSUDIPTA KARMAKARCC-PHSH6TheoryCore-13Unit 4POLARISATION OF ELECTROMAGNETIC WAVESCircular ,elliptical polarisation, propagation of E.M. waves in anisotropic media,uniaxial and biaxial crystal,double refraction,polarisation of double refraction,ordinary & extraordinaryrefractive in10
PhysicsSUDIPTA KARMAKARCC-PHSH6TheoryCore-13Unit 5WAVES GUIDESPlaner optical wave guide,planar dielectric wave guide,condition of continuity at interface,phase and group velocity of guided waves4
PhysicsSUDIPTA KARMAKARCC-PHSH6TheoryCore-13Unit 6OPTICAL FIBRESNumerical aperture,step and graded indices4
PhysicsParimal SarkarCC-PHSH6TheoryCore-14Unit 2Statistical Mechanics: Classical StatisticsMaxwell-Boltzmann Distribution Law,6
PhysicsParimal SarkarCC-PHSH6TheoryCore-14Unit 3Statistical Mechanics: Classical Theory of RadiationBlackbody Radiation6
PhysicsParimal SarkarCC-PHSH6TheoryCore-14Unit 4Statistical Mechanics: Classical Theory of RadiationWien’s Displacement law. Wien’s Distribution Law. Saha’s Ionisation Formula. Rayleigh-Jean’s Law5
PhysicsParimal SarkarCC-PHSH6TheoryCore-14Unit IStatistical Mechanics: Classical StatisticsElementary Concept of Ensemble6
PhysicsParimal SarkarCC-PHSH6TheoryCore-14Unit 5Statistical Mechanics: Fermi-Dirac StatisticsFermi-Dirac Distribution Law5
PhysicsParimal SarkarCC-PHSH6TheoryCore-14Unit 6Statistical Mechanics: Fermi-Dirac StatisticsDegenerate Fermi Gas5
PhysicsParimal SarkarCC-PHSH6TheoryCore-14Unit 6Statistical Mechanics: Fermi-Dirac StatisticsSpecific Heat of Metals5
PhysicsANIMESH HALDARCC-PHSH6TheoryCore-14Unit 6Bose-Einstein Statistics Tutorial2
PhysicsANIMESH HALDARCC-PHSH6TheoryCore-14Unit 4 Quantum Theory of Radiation Spectral Distribution of Black Body Radiation. Planck’s Quantum Postulates. Planck’s Law of Blackbody Radiation: Experimental Verification. 2
PhysicsANIMESH HALDARCC-PHSH6TheoryCore-14Unit 6BE StasisticsBose Einstein Gas at Low Temperature4
PhysicsANIMESH HALDARCC-PHSH6TheoryCore-14Unit 5BE StatisticsBOSe Gas at High Temperature4
PhysicsANIMESH HALDARCC-PHSH6PracticalCore-14Unit 3Statisticcal Mech Practicalsplotting of distribution functions of MB,BE & FD STST4
PhysicsANIMESH HALDARCC-PHSH6PracticalCore-14Unit 5Statistical Mech Programmingplotting of thermodynamic variables in FD statistics4
PhysicsANIMESH HALDARCC-PHSH6PracticalCore-14Unit 5Scilab Programming on Statistical Mechanics4. Plot Specific Heat of Solids by comparing (a) Dulong-Petit law, (b) Einstein distribu- tion function, (c) Debye distribution function for high temperature (room tempera- ture) and low temperature a6
PhysicsANIMESH HALDARCC-PHSH6PracticalCore-14Unit 6Scilab Programming on Statistical Mechanics3. Plot Planck’s law for Black Body radiation and compare it with Wein’s Law and Raleigh-Jeans Law at high temperature (room temperature) and low temperature.6
PhysicsANIMESH HALDARCC-PHSH6PracticalCore-14Unit 7Scilab Programming on Statistical Mechanics2. Computation of the partition function Z(ß) for examples of systems with a finite number of single particle levels (e.g., 2 level, 3 level, etc.) and a finite number of non-interacting particles N u6
PhysicsANIMESH HALDARCC-PHSH6TheoryCore-14Unit 4 Quantum Theory of Radiation Deduction of (1) Wien’s Distribution Law, (2) Rayleigh-Jeans Law, (3) Stefan-Boltzmann Law, (4) Wien’s Displacement law from Planck’s law2
PhysicsANIMESH HALDARCC-PHSH6TheoryCore-14Unit 7Statistical MechanicsBose Einstein Condensation2
PhysicsANIMESH HALDARCC-PHSH6PracticalCore-14Unit IStatisticcal Mech PracticalsPlotting of Partition function and other Thermodynamic parameters of BE Statistics4
PhysicsANIMESH HALDARCC-PHSH6TheoryCore-14Unit 4Bose Einstein statisticsBose Gas At High Temperature3
PhysicsANIMESH HALDARCC-PHSH6PracticalCore-14Unit 2Programming on Statistical Mechanics2. Computation of the partition function Z(ß) for examples of systems with a finite number of single particle levels (e.g., 2 level, 3 level, etc.) and a finite number of non-interacting particles N u4
PhysicsParimal SarkarCC-PHSH6ProjectDSE3Unit IDissertationTOPIC Selection10
PhysicsParimal SarkarCC-PHSH6ProjectDSE3Unit 2DissertationIntroduction10
PhysicsParimal SarkarCC-PHSH6ProjectDSE3Unit 3DissertationLiterature Survey10
PhysicsParimal SarkarCC-PHSH6ProjectDSE3Unit 4DissertationLiterature Survey10
PhysicsParimal SarkarCC-PHSH6ProjectDSE3Unit 5DissertationProblem Identification10
PhysicsParimal SarkarCC-PHSH6ProjectDSE3Unit 6DissertationDetailed Study5
PhysicsParimal SarkarCC-PHSH6ProjectDSE3Unit 7DissertationConclusion and Discussion with reference5
PhysicsISHITA DECC-PHSH6TheoryDSE3Unit IDSE : Nuclear and Particle Physics General Properties of Nuclei 8
PhysicsISHITA DECC-PHSH6TheoryDSE3Unit 4DSE : Nuclear and Particle Physics Detector for Nuclear Radiations 7
PhysicsISHITA DECC-PHSH6TheoryDSE3Unit 3DSE : Nuclear and Particle Physics Radioactivity decay7
PhysicsISHITA DECC-PHSH6TheoryDSE3Unit 2DSE : Nuclear and Particle Physics Nuclear Models 15
PhysicsSUDIPTA KARMAKARCC-PHSH6TheoryDSE4Unit 4NUCLEAR REACTIONType of reaction,conservation laws,Q value,reaction rate,concept of compound reaction,coulomb reaction4
PhysicsSUDIPTA KARMAKARCC-PHSH6TheoryDSE4Unit 5INTERACTION OF NUCLEAR RADIATION WITH MATTERENERGY LOSS DUE TO IONISATION,CERENKOV RADIATION,GAMMA RAY INTERACTION THROUGH MATTER ,PHOTOELECTRIC MATTER,COMPTON SCATTERING,PAIR PRODUCTION,8
PhysicsSUDIPTA KARMAKARCC-PHSH6TheoryDSE4Unit 6PARTICLE ACCELERATORSCYCLOTRON,SYNCHROTRONS,LINEAR ACCELERATOR4
PhysicsSUDIPTA KARMAKARCC-PHSH6TheoryDSE4Unit 8PARTICLE PHYSICS 8
PhysicsANIMESH HALDARCC-PHSH6PracticalSelectUnit 3Scilab Programming on Statistical Mechanics(a) Study of how Z(ß), average energy E , energy fluctuation ?E, specific heat at constant volume Cv, depend upon the temperature, total number of particles N and the spectrum of single particle state6
PhysicsParimal SarkarDSC-PHSG6TheoryDSE A2Unit INuclear and Particle Physics: Radioactivity decayAlpha decay5
PhysicsParimal SarkarDSC-PHSG6TheoryDSE B2Unit 6Nuclear and Particle Physics: Radioactivity decayBeta & Gamma decay5
PhysicsParimal SarkarDSC-PHSG6TheoryDSE B2Unit 7Nuclear and Particle Physics: Nuclear ReactionsNuclear Reactions8
PhysicsParimal SarkarDSC-PHSG6TheoryDSE B2Unit 8Nuclear and Particle Physics: Interaction of Nuclear Radiation with matterInteraction of Nuclear Radiation with matter6
PhysicsParimal SarkarDSC-PHSG6TheoryDSE B2Unit 9Nuclear and Particle Physics: IDetector for Nuclear Radiationsar Radiation with matterDetector for Nuclear Radiations6
PhysicsParimal SarkarDSC-PHSG6TheoryDSE B2Unit 10Nuclear and Particle Physics: Particle Acceleratorsuclear Radiationsar Radiation with matterParticle Accelerators5
PhysicsISHITA DEDSC-PHSG6TheoryDSE C2Unit 5DSE : Nuclear and Particle Physics Particle physics 14
PhysicsISHITA DEDSC-PHSG6TheoryDSE C2Unit 6DSE : Nuclear and Particle Physics Particle Accelerators 14
PhysicsISHITA DEDSC-PHSG6TheoryDSE C2Unit 2DSE : Nuclear and Particle Physics Radioactivity decay 9
PhysicsISHITA DEDSC-PHSG6TheoryDSE C2Unit IDSE : Nuclear and Particle Physics General Properties of Nuclei 10
PhysicsANIMESH HALDARDSC-PHSG6TheorySEC4Unit IIntroduction to Computational PhysicsImportance of computers in Physics, paradigm for solving physics prob- lems for solution. Usage of linux as an Editor1
PhysicsANIMESH HALDARDSC-PHSG6TheorySEC4Unit 2Algorithms and Flowcharts Algorithm: Definition, properties and development. Flow- chart: Concept of flowchart, symbols, guidelines, types. Examples: Cartesian to Spherical Polar Coordinates, Roots of Quadratic Equation, Sum o4
PhysicsANIMESH HALDARDSC-PHSG6TheorySEC4Unit 3Scientific Programming Some fundamental Linux Commands (Internal and External commands). Development of FORTRAN, Basic elements of FORTRAN: Character Set, Constants and their types, Variables and their types, Keywords, Vari2
PhysicsANIMESH HALDARDSC-PHSG6TheorySEC4Unit 3Scientific Programming Operators: Arithmetic, Relational, Logical and Assignment Operators. Expressions: Arithmetic, Relational, Logical, Character and As- signment Expressions. Fortran Statements: I/O Statements (unformatt3
PhysicsANIMESH HALDARDSC-PHSG6TheorySEC4Unit 4Control Statements Types of Logic (Sequential, Selection, Repetition), Branching State- ments (Logical IF, Arithmetic IF, Block IF, Nested Block IF, SELECT CASE and ELSE IF Ladder statements), Looping Statements (DO-CON2
PhysicsANIMESH HALDARDSC-PHSG6TheorySEC4Unit 5Programmimg in Fortran Language1. Exercises on syntax on usage of FORTRAN. 2. Usage of GUI Windows, Linux Commands, familiarity with DOS commands and working in an editor to write sources codes in FORTRAN1
PhysicsANIMESH HALDARDSC-PHSG6TheorySEC4Unit 5Programmimg in Fortran Language3. To print out all natural even/ odd numbers between given limits. 4. To find maximum, minimum and range of a given set of numbers.1
PhysicsANIMESH HALDARDSC-PHSG6TheorySEC4Unit 5Programmimg in Fortran Language5. Calculating Euler number using exp(x) series evaluated at x = 1.1
PhysicsANIMESH HALDARDSC-PHSG6TheorySEC4Unit 6Scientific word processing Introduction to LaTeX: TeX/LaTeX word processor, prepar- ing a basic LaTeX file, Document classes, Preparing an input file for LaTeX, Compiling LaTeX File, LaTeX tags for creating different environmen3
PhysicsANIMESH HALDARDSC-PHSG6TheorySEC4Unit 7Equation representation Formulae and equations, Figures and other floating bodies, Lining in columns- Tabbing and tabular environment, Generating table of contents, bib- liography and citation, Making an index and glossary, 3
PhysicsANIMESH HALDARDSC-PHSG6TheorySEC4Unit 8VisualizationIntroduction to graphical analysis and its limitations. Introduction to Gnu- plot. importance of visualization of computational and computational data, basic Gnu- plot commands: simple plots, plotting2
PhysicsANIMESH HALDARDSC-PHSG6TheorySEC4Unit 9Hands on exercises1. To compile a frequency distribution and evaluate mean, standard deviation etc. 2. To evaluate sum of finite series and the area under a curve1
PhysicsANIMESH HALDARDSC-PHSG6TheorySEC4Unit 9Hands on exercises3. To find the product of two matrices. 4. To find a set of prime numbers and Fibonacci series1
PhysicsANIMESH HALDARDSC-PHSG6TheorySEC4Unit 9Hands on exercises5. To write program to open a file and generate data for plotting using Gnuplot. 6. Plotting trajectory of a projectile projected horizontally1
PhysicsANIMESH HALDARDSC-PHSG6TheorySEC4Unit 9Hands on exercises7. Plotting trajectory of a projectile projected making an angle with the horizontally. 8. Creating an input Gnuplot file for plotting a data and saving the output for seeing on the screen. Saving it 1
PhysicsANIMESH HALDARDSC-PHSG6TheorySEC4Unit 9Hands on exercises9. To find the roots of a quadratic equation. 10. Motion of a projectile using simulation and plot the output for visualization.1
PhysicsANIMESH HALDARDSC-PHSG6TheorySEC4Unit 9Hands on exercises11. Numerical solution of equation of motion of simple harmonic oscillator and plot the outputs for visualization. 12. Motion of particle in a central force field and plot the output for visualization1
COOCH BEHAR COLLEGE  Design & Development by Infotech Lab