Syllabus of Physics for B.Sc. I Year ~ Kumaun University Nainital

Saturday 25 October 2014

Syllabus of Physics for B.Sc. I Year

Syllabus of Physics for B.Sc. I year in kumaun university


Click to download PDF of Proposed Syllabus for B. Sc. Semester program implemented from Session 2016-17 of Kumaun University for Physics

                         
I Paper :  Mechanics and Properties of matter                           
Maximum marks: 33

Note: This   question   paper   consists   of   three   Sections.   Section-A   consists   of  fourteen
objective type questions bearing ½   mark each,  all questions are compulsory. Section-B
consists   of   ten   short   answer   type   questions   bearing   2   marks   each,   attempt   any  seven
questions from this section. Section-C consists of six long answer type questions bearing 4
marks   each   and   attempt   any  three   questions   from   this   section.   Questions   are   to   be
attempted sequentially as far as possible. All the symbols used have their usual meanings.

Unit-I Vectors
Triple product of vectors, scalar and vector fields, Differentiation of vectors (line, surface
and volume integration), applications of vectors to linear and rotational quantities, Del
operator,   Gradient,   Divergence   and   Curl   of   vectors,   circular   motion,   Gauss’s,   Stoke’s
and Green’s theorem (Examples to be given from physical situations).

Unit-II Gravitation (Field and Potentials)
Law   of   Gravitation,   Gravitational   field   and   potential,   Gravitational   potential   energy,
escape   velocity,   Gravitational   Field   Intensity   and  Potential   for   a   spherical   shell,   solid
sphere    and   circular  disc,  Gauss’s   &  Poisson   equations    for  gravitational  self  energy,
Inverse square law of forces, Kepler’s laws for planetary motion.

Unit-III Conservation Laws
Concept     of  inertial  and   Non-inertial   frames    of  references,   Work-Energy      principle,
conservative forces, conservative force as the negative gradient of potential energy, Law
of conservation of total energy and momentum. Centre of mass, variable mass, the rocket,
conservation of angular momentum.

Unit-IV Dynamics of Rigid Bodies
Equation of motion, angular momentum vector, moment of inertia, theorem of parallel
and perpendicular axes, moment of inertia of, a rod, rectangular lamina, circular lamina,
solid sphere, spherical shell and cylinder, kinetic energy of rotation, Rolling motion along
a slope, Torque and precession, compound pendulum.

Unit-V Properties of Matter
Inter    relations   between     elastic  constants,    torsion  of   a  cylinder,    Bending     of  beam,
cantilever,   shape   of   Girders,   Viscosity,   Stoke’s   law,   Posieuille’s   formula,   capillaries   in
series    and   parallel,   Equation     of   continuity,    Bernoulli’s    theorem,     surface    tension,
molecular interpretation.

Books Recommended:
    1.  Berkeley   Physics   course   Vol.   I   “Mechanics”  McGraw-Hill   Book   Company,   2nd
        edition.
    2.  R. P. Feymman, R. B. Lightan and M. Sands “The Feymman Lectures in Physics”
        Publisher: Basic Books.
    3.  J. C. Upadhyay “General Properties of Matter” Vol- I. Ram Prasad & Sons, Agra.
    4.  D. S. Mathur “Mechanics” S. Chand & Co.
    5.  D. S. Mathur “Elements of Properties of Matter” S. Chand & Co.

     


II Paper: Electricity and Magnetism 
Maximum marks: 33

Note: This   question   paper   consists   of   three   Sections.   Section-A   consists   of  fourteen
objective   type   questions   bearing   ½   mark   each,   all   questions   are   compulsory.   Section-B
consists   of   ten   short   answer   type   questions   bearing   2   marks   each,   attempt   any  seven
questions from this section. Section-C consists of six long answer type questions bearing 4
marks   each   and   attempt   any  three   questions   from   this   section.   Questions   are   to   be
attempted sequentially as far as possible. All the symbols used have their usual meanings.

Unit I Electric field and Potential
Gauss’s   theorem   and   its   integral   and   differential   forms,   line   integral   of   electric   field,
Electric   field   and   potential   due   to   an   arbitrary   charge   distribution,  long   charged   wire,
sphere, disc and dipole electrostatic energy, energy stored in an electric field, method of
electrical    images    and   its  application   for   system   of  point   charges    near   a  grounded
conducting plane surface.

Unit II Electric fields in Matter
Dielectrics,    polar   and   non-polar     molecule,    polarization    vector,   electric  displacement
vector, three electric vectors, Dielectric, susceptibility and permittivity, atomic and ionic
polarizability, electronic polarizability, Clausius-Mossotti relation, Langevin’s theory of
polar dielectrics, Moments of a charge distribution.

Unit III      Magnetostatics
Lorentz     force,  Biot-Savart’s    law,   Ampere’s     law,  Application    of  Biot-Savart’s    law,
magnetic   field   due   to   steady   current   in   a   long   straight   wire,   Interaction   between   two
parallel   long   current   carrying   wires,  Fields   due   to   a   Helmholtz   coil,   solenoid   and   a
current loop, magnetic vector potential, Permeability, Energy stored in a magnetic field,
Ballistic galvanometer.

Unit IV Electric Currents (Steady and Varying)
Current density, Equation of Continuity, Ohm’s law and electrical conductivity, Lorentz-
Drude theory, Wiedmann-Frenz law, Kirchhoff’s laws and their applications, Transient
current, Growth and decay of D. C. in L - R and L - C circuits, charging and discharging
of a capacitor through a resistance.

Unit V Alternating Currents
Impedance, admittance and reactance, R-C, R-L and L-C circuits with alternating e.m.f.
source,    series  and  parallel   L-C-R   circuits,  resonance    and   sharpness,   Quality   factor,
Power in A. C. circuits, Choke coil.

Books Recommended:
    1.  Berkely Physics course, Vol II “Electricity and Magnetism” McGraw Hill.
    2.  E. M. Purcell and D. J. Morin “Electricity and Magnetism” Cambridge University
        Press.
    3.  A. S. Mahajan and A. Rangwala “Electricity and Magnetism” Tata McGraw Hill.
    4.  K. K. Tewari, “Electricity & Magnetism” S. Chand & Co.
    5.  B. B. Laud “Electromagnetices” Wiley Eastern.
    6.  B. K. Agarwal “Electricity and Magnetism” New Age International (p) Ltd.
    7.  D. C. Tayal “Electricity and Magnetism” Himalaya Publishing.
    8.  Halliday & Resnick- “Physics Vol II”.




III Paper: Acoustics, Waves and Oscillations
Maximum marks: 34


Note:  This   question   paper   consists   of   three   Sections.   Section-A   consists   of  sixteen
objective   type   questions   bearing   ½   mark   each,   all   questions   are   compulsory.   Section-B
consists   of   ten   short   answer   type   questions   bearing   2   marks   each,   attempt   any  seven
questions from this section. Section-C consists of six long answer type questions bearing 4 marks  each   and   attempt   any  three   questions   from   this   section.   Questions   are   to   be
attempted sequentially as far as possible. All the symbols used have their usual meanings.

Unit I Simple Harmonic Motion
Characteristics     of  S.H.M.,   S.H.M.    in  mechanical    and   electrical  systems,  Addition    of
SHM(s),     Non-linear    (an   harmonic)    oscillator,  Damped      harmonic    oscillator,  Quality
factor,   applications   in  moving    coil  galvanometers,   oscillations    of  a  system  with   two
degrees of freedom, Lissajous figures, Composition of two SHM(s) of frequency ratio 2:1.

Unit II Forced Oscillations and Resonance
Forced    oscillations   in  mechanical    and   electrical  systems,  Transient    and   steady   state
behavior, phenomenon of resonance, sharpness of resonance, energy dissipation, Driven
harmonic oscillator, Velocity resonance.

Unit III Wave Motion
Characteristics      of  a  wave,   Differential    equation    of  a  wave    motion,   principle    of
superposition, Beats, Stationary waves, Wave velocity and group velocity, resonance.

Unit IV Ultrasonics and Acoustics
Generation of ultrasonic waves, their detection and applications, Piezo-electric effect and
Quartz   crystal,   energy   density   of   Acoustic   waves,   Acoustic   intensity,   Measurement   of
Acoustic    intensity   –  dB   scale,  Reflection   and   transmission    of  acoustic   waves    at  a
boundary      between    two   media,   Acoustics    of  buildings,  reverberation     time,  Sabine’s
formula, principle of Sonar system.

Unit V Electromagnetic Waves
Maxwell’s   equations   (derivation),   Pointing   vector,  electromagnetic   waves   in   free   space
and    in  conducting    and   non    -  conducting    media   (dielectrics),  Elementary     ideas   of
reflection and refraction of E. M. waves.

Books Recommended:
    1.  Brijlal & Subrahmanyam “Waves & Oscillations” S. Chand & Co.
    2.  B. S. Semwal and M.S. Pasewar “Wave Phenomena and Material Science”.
    3.  Berkeley Physics Course “Waves & Oscillations” Vol-I, McGraw Hill.
    4.  R. K. Ghosh “The mathematics of waves and vibrations” McMillan.
    5.  D. P. Khandelwal “Oscillations & Waves” Himalaya Publishing House.
    6.  H. J . Pain “The Physics of vibrations and waves” Wiley, 6th edition.



PDF File of Physics Syllabus of B.Sc. I Kumaun University

Source : Kumaun University

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