PHYSICS PRACTICAL

Paper Code: 
PHY-203
Credits: 
3
Contact Hours: 
60.00
Max. Marks: 
100.00
Objective: 
Semester II
Paper III
PHY-203
PHYSICS PRACTICAL
 
 
 
NOTE     - Students are expected to perform any eight experiments from the given list. Two experiments out of the eight will be set in the examination paper.
The duration of the Practical Examination shall be 5 hours.
 
                 The distribution of marks in the practical examination will be as follows:
 
3. Two experiments:  30 marks each.
4. Distribution of marks will be as follows :
 
     Figure /Formula/Theory : 7
     Observations/Calculations : 16
     Result /Result Analysis          :         5
        Precautions                          : 2
 
     3. Viva -Voce                          : 10
 
 
        Total                          : 70 marks 
 
 
 
 
 
 
 
 
 
 
 
 
Semester II
 
Paper III
PHY-203
List of Experiments
 
   Credits assigned: 3                                     Course duration: 60 hours
                                                                            M.M.:100
                                                                                   (CA –30, SEE-70)
                                                                               
 
1. To determine wavelength of Sodium light by grating.
 
2. To determine wavelength of Sodium light by Fresnel’s  Biprism.
 
3. To determine dispersive  power of a prism using Mercury light.
 
4. Using Newton’s rings find out the wavelength of the given monochromatic source.
5. Using Michelsons’s interferometer, find out l and Dl for Sodium Light. 
 
6. To determine Brewster’s angle and refractive index of glass by using spectrometer and Polaroids.
 
7.    To study damping of a compound pendulum and to determine the quality factor. 
 
8.    To study the charging of a condenser by unidirectional varying voltage        pulses/alternating voltage pulses and then to integrate them.
 
9.    Study of dependence of velocity of wave propagation on line parameter using     torsional wave apparatus.
 
10.    To study the variation of  magnetic field along the axis of a current carrying circular coil. Plot the necessary graph and hence determine the radius of circular coil.
 
11.  To study resonance in a series L C R circuit and determine Q factor of the       circuit.
 
12.  To study the variation of reflection coefficient of nature of termination using         torsional wave apparatus. 
 
 
 
 
Academic Year: