Unit 1 Conceptual Multiple Choice Questions
Unit 1 Conceptual Multiple Choice Answers
Unit 1.1 Multiple Choice Questions - Waves
Unit 1.1 Multiple Choice Answers - Waves
Unit 1.3 Multiple Choice Questions - Sound
Unit 1.3 Multiple Choice Answers - Sound
Unit 1.5 Multiple Choice Questions - Doppler Effect
Unit 1.5 Multiple Choice Answers - Doppler Effect
Unit 2 - Multiple Choice - Electromagnetic Waves Questions
Unit 2 - Multiple Choice - Electromagnetic Waves Answers
Unit 2.1 Multiple Choice Extended Questions - Waves
Unit 2.1 Multiple Choice Extended Answers-Waves
Unit 3 Multiple Choice Questions
Unit 3 Multiple Choice Answers
 

Unit 2.1 Multiple Choice Extended Questions - Waves

1. Once waves are no longer interacting with each other, the waves

A. trade energies
B. one wave gets consumed by the other
C. they double in size
D. the waves return to their original sizes

2. Constructive interference results in a wave whose amplitude is __________ any of the contributing waves.

A. larger than
B. smaller than
C. same size as
D. double

3. The principle of wave superposition DOES NOT apply to interactions between

A. two waves
B. more than two waves
C. coherent waves
D. inchoerent waves

4. According to the principle of superposition, displacement caused by combining two waves is equal to the

A. average amplitude of the contributing waves
B. amplitude of the larger wave
C. equilibrium position
D. sum of the amplitudes of contributing waves

5 . When two waves are in phase, ____________ interference will occur.

A. constructive
B. destructive
C. no
D. little

6. In transverse waves, the motion of the particles is, ____________ to the direction of propogation of the wave.

A. parallel
B. perpendicular
C. opposite
D. tangential

7. Particles move in a circle for the following type of wave:

A. surface
B. transverse
C. electromagnetic
D. longitudinal

8. Which type of wave DOES NOT requie a medium to propagate?

A. surface waves
B. transverse waves
C. electromagnetic waves
D. longitudinal waves

9. In longitudinal waves, the motion of the particles is ____________ to the direction of propogation of the wave.

A. parallel
B. perpendicular
C. opposite
D. tangential

10. Which of the following is propagated by waves:

A. matter
B. energy
C. both matter and energy
D. none of the above

11. The horizontal distance between successive crests of a wave is

A. frequency
B. amplitude
C. period
D. wavelength

12. The highest point in a wave is

A. crest
B. trough
C. frequency
D. wavelength

13. The maximum displacement from the mediums equilibrium position is called

A. frequency
B. amplitude
C. period
D. wavelength

14. The time it takes two successive crests to pass the same place is is called

A. frequency
B. amplitude
C. period
D. wavelength

unit 2mc1

15. A ball moves with simple harmonic motion between points A and B. The magnitude of the acceleration (α) of the ball at point C is 4.00 ms-2. Calculate the acceleration of the ball at point D? (Recall that for harmonic motion α = - ω2x)

A. +4.00 ms-2
B. -8.00 ms-2
C. -4.00 ms-2
D. +8.00 ms-2

16. Sound travels at 340 ms-1 in air and 5000 ms-1 in rocks. The sound of an earthquake emerges into the air. Its

A. frequency remains the same but the wavelength is shorter.
B. frequency is higher but the wavelength remains the same.
C. frequency is lower but the wavelength remains the same.
D. frequency remains the same but the wavelength is longer.

mc2

17. The upper graph shows the displacement y vs. the distance x for a wave is traveling with a speed v along the x axis in the positive direction. The lower graph shows the displacement y vs the time t. Calculate the speed of the wave from the information in the graphs.

A. 4.0 ms-1
B. 1.0 ms-1
C. 0.80 ms-1
D. 10.00 ms-1

 

. . mc18

18. The graph above shows two identical pulses traveling in opposite directions along a string, each with a velocity of 0.5 m/s. After 8.0 s, the string will look like

A. mc

B. mc

C. mc

D. mc

 

mc

19. Two loudspeakers 5m apart emit the same tone of wavelength 0.5m. A listener stands at X, 12m from the right speaker and then moves to Y which is also 12m in front of the left speaker. She would hear

A. Maximum at X, Maximum at Y
B. Maximum at X, Minimum at Y
C. Minimum at X, Minimum at Y
D. Minimum at X, Maximum at Y

MC

20. Two progressive waves with equal velocities and wavelengths are moving in opposite directions in a string. The standing wave will have

A. Nodes at W and Y
B. Nodes at X and Z
C. Nodes at W and X
D. Nodes at Y and Z

Concept by Kishore Lal. Programmed by Kishore Lal... Copyright © 2015 Kishore Lal. All rights reserved.