M.Sc. (Physics) Semester-I (General Physics Lab)
1. Study the following wave shaping circuits using discrete components
(a) High pass and Low pass filters (b) Clipping circuits (c) Clamping circuit
2. Study various flip-flop circuits and design counters to the base 16 up and down counter and an up counter to the base 10/9/7 using flip-flops.
3. Design and study a single-stage RC coupled transistor amplifier of a given voltage gain and lower cutoff frequencies.
4. Design and study an RC-coupled two-stage amplifier of a given gain and the cutoff frequencies.
5. Study the following quantities in relation to thermal bias stability of a
given transistor amplifier circuit
(a) Variation of Ico with temperature (b) Variation of Ic with temperature
(c) Variation of S with temperature (d) Distortion of the ac signal with temperature
given transistor amplifier circuit
(a) Variation of Ico with temperature (b) Variation of Ic with temperature
(c) Variation of S with temperature (d) Distortion of the ac signal with temperature
6. Design and study any two of the following circuits using IC 555 timer:
(a) Monostable oscillator (pulse width W as 0.25 ms)
(b) A stable oscillator (frequency 400 Hz and duty cycle 75%)
(c) Ramp generator (slope = 10 V/ms)
(d) Voltage-controlled oscillator
(a) Monostable oscillator (pulse width W as 0.25 ms)
(b) A stable oscillator (frequency 400 Hz and duty cycle 75%)
(c) Ramp generator (slope = 10 V/ms)
(d) Voltage-controlled oscillator
7. Design and study the RC phase shift oscillator of frequency 1.5 kHz using the op-amp 741
8. Design and study the Wein bridge oscillator frequency 2 kHz using the opamp 741.
10. Design and study astable multivibrator of frequency 3 kHz & 1 kHz both in symmetric and asymmetric modes.
11. Study the following application of the op-amp 741:
(a) Unity gain buffer (b) Adder (c) Subtractor (d) Integrator (e) Differentiator
(f) Comparator
(a) Unity gain buffer (b) Adder (c) Subtractor (d) Integrator (e) Differentiator
(f) Comparator
13. To study the coupled oscillator, frequency response with mass variation.
(a) Amplitude response with frequency (b) Phase lag between driven and driver.
(a) Amplitude response with frequency (b) Phase lag between driven and driver.
14. To determine Lo, Co. and Rf of a given coil, and to study the variations of Rf
with frequency.
with frequency.
15. To study the Hartley oscillator.
17. To study the characteristics of a UJT and use it to design a relaxation
oscillator and measure its frequency.
oscillator and measure its frequency.
19. Study of DC gate control characteristics and Anode current characteristics of SCR.
