INTERNAL TEST I - ATOMIC AND NUCLEAR PHYSICS - 7BPH4C1

 I INTERNAL TEST - ATOMIC AND NUCLEAR PHYSICS - 7BPH4C1

TIME: 2 Hrs                                                                                                 TOTAL:  50 Marks

Part A - 5 x 2 = 10 Marks

1.Write any two properties of Positive Rays.

2.Define Critical Potential.

3.State the laws of Photo Electric Emission.

4.State Pauli's Exclusion Principle.

5.State Selections Rules for electronics transition in atoms.

Part B - 4 x 5 = 20 Marks

6. Describe the construction and working of Bainbridge Mass Spectrometer.

7. Derive Einstein's Photo Electric Equation.

8. Explain the various quantum numbers associated with the vector atom model.

9. Explain the Fine Structure of  Sodium D Lines.

Part C - 2 x 10 = 20 Marks

10. Describe the experimental determination of critical voltage by Frank and Hertz Experiment.

11. Describe the Stern-Gerlach Experiment.

II INTERNAL TEST - DIGITAL ELECTRONICS - 7BPH6C2

  II INTERNAL TEST - DIGITAL ELECTRONICS - 7BPH6C2

TIME: 2 Hrs                                                                  TOTAL:  40 Marks

Part A - 5 x 2 = 10 Marks

1. What is D Flip Flop?

2. Write note on resolution of ADC.

3. Expand ROM, RAM and PROM.

4. What is accumulator in 8085 μp?

5. What is the function of stack –pointer in Intel 8085?

Part B - 2 x 5 = 10 Marks

6. Explain the working of clocked RS –flip flop.

7. Describe the working of a binary ladder D/A converter.

Part C - 2 x 10 = 20 Marks

10. Explain the action of simultaneous conversion ADC .

11. Draw the pin-out diagram of 8085 μp.

INTERNAL TEST II - ATOMIC AND NUCLEAR PHYSICS - 7BPH4C1

II INTERNAL TEST - ATOMIC AND NUCLEAR PHYSICS - 7BPH4C1

TIME: 2 Hrs                                                                                                                                    TOTAL:  40 Marks

Part A - 5 x 2 = 10 Marks

1.Define Miller indices

2.State Mosley's law. 

3.State the law of of radioactive disintegration

4.Write note on Van Allen belts.

5.What are baryons?

Part B - 2 x 5 = 10 Marks

6. Derive Bragg's law of  x-ray diffraction.

7. Describe the working of GM counter.

Part C - 2 x 10 = 20 Marks

8. Give the theory of Compton effect and briefly explain its' experimental verification.

9. Explain the action of Betatron.

MODEL SEMESTER QUESTION - 7BPH6C2 - APRIL 2021 - DIGITAL ELECTRONICS

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UNIVERSITY QUESTIONS FROM APRIL 2019 - For Physics - Major And Allied

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MODEL SEMESTER QUESTION - 7BPH4C1 - APRIL 2019 - ATOMIC AND NUCLEAR PHYSICS