X. Waves Flash Cards

1. A wave generator located 4.0 meters from a reflecting wall produces a standing wave in a string, as shown in the diagram below.


 

 

 

a) What is the wavelength of this standing wave? b) How many nodes does it have? c) How many antinodes does it have? d) If the speed of the wave is 10. meters per second, what is its frequency?
(1) 0.40 Hz (2) 5.0 Hz (3) 10. Hz  (4) 40. Hz

a) _____

b) _____

c) _____

d) _____
2a. Which two waves have the same wavelength? 

 

 

 

(1) A & B (2) A & C (3) B & D (4) C & D

2b) Which wave has the longest period? 2c) highest frequency?

a) _____

b) _____

c) _____
3. The diagram below shows a person shaking the end of a rope up and down, producing a disturbance that moves along the length of the rope.

Which type of wave is traveling in the rope?

 

1 torsional 2 longitudinal 3 transverse  4 elliptical

 ____

Which choice shows light coming:

4a) greater than the critical angle?

4b) less than the critical angle?

4c) equal to the critical angle?

4d) Which choice is not possible?

a) _____

b) _____

c) _____

d) _____

Waves Flash Cards

5. The graph below shows displacement versus time for a particle of a uniform medium as a wave passes through the medium.

a) What is the frequency of the wave  (1) 10 Hz (2) 20 Hz  (3) 50 Hz (4) 100 Hz

 

 

 

b) What is the amplitude of the wave?

a) _____

b) _____
6. The diagram
below shows a pulse moving to the right
in a rope. A is a point
on the rope.


Which arrow best shows the direction of movement of point A at this instant?
_____
7a) Which medium is faster?

7b) In which medium would the index of refraction be larger?

7c) In which medium would light have a greater wavelength?

 

a) _____

b) _____

c) _____

Waves Flash Cards

8. The diagram below shows a periodic wave.



a) Which two points on the wave are in phase? b) out of phase

(1) A and C (2) B and D  (3) C and F (4) E and G

a) _____

b) _____ 
9. Match the wave behavior with a picture on the left   

a) diffraction
b) refraction
c) reflection d) standing wave

a) _____

b) _____

c) _____

d) _____

 
10. What are the amplitude and wavelength of the wave shown below?

(1) amplitude = 0.10 m, wavelength = 0.30 m
(2) amplitude = 0.10 m, wavelength = 0.60 m
(3) amplitude = 0.20 m, wavelength = 0.30 m
(4) amplitude = 0.20 m, wavelength = 0.60 m

_____
11. The diagram below shows two waves, A and B. The phase difference between A and B is

(1) 0°

(2) 45°

(3) 90°

(4) 180°

____

Waves Flash Cards


12. When the light ray enters the water, in which direction will it point?

 ___________
13a) Which ray would never be produced when light enters fused quartz ?

b) If medium X is slower than fused quartz , which ray would be produced?

c) if medium X is faster than fused quartz ?

d) if both media have the same speed?

a) _____

b) _____

c) _____

d) _____

14. A beam of monochromatic light (f = 5.09 × 10 14 hertz) passes through parallel sections of glycerol, medium X, and medium Y as shown in the diagram below.

a) which medium is the fastest?

b) slowest?

c) compare the speed of medium Y and glycerol

a) _____

b) _____

c) _____ 
15a) How many nodes does it have?

b) How many antinodes does it have?

a) _____

b) _____ 

Waves Flash Cards

16. A ray of monochromatic light traveling in air is incident on a plane mirror at an angle of 30.°, as shown in the diagram below.


The angle of reflection for the light ray is


(1) 15.° (2) 30.° 

(3) 60.° (4) 90.°

____

17. n the diagram below, the distance between points A and B on a wave is 5.0 meters.

The wavelength of this wave is
(1) 1.0 m (2) 2.0 m (3) 5.0 m  (4) 4.0 m

 _____
18a) What kind of interference occurs when these waves overlap?
b) What is the amplitude of the wave that results when each wave arrives at point X?

a) _____

b) _____  

19. a) transverse - particles in a medium vibrate ______to the direction of the wave travels

b) longitudinal waves - particles in a medium vibrate _____to the direction of the wave travels          (ex - ______)

 

 ___________

 

___________   ___________

Waves Flash Cards

20. The diagram below shows two pulses, A and B, moving to the right along a uniform rope. Compared to pulse A, pulse B has

 



 


1 a slower speed and more energy 2 a faster speed and less energy
3 a faster speed and the same energy 4 the same speed and more energy

 _____

 

21a) Waves carry only _________ and information without transferring mass.

b) Mechanical waves require a material medium through which to travel. (ex. _____)

 

 a) ___________

b) ___________

22a) The absolute index of refraction is inversely proportional to the _____ of a wave.

b) When the vibration of one object matches the natural frequency of another object and cause it to vibrate this is called ______

 ___________

 

___________
23. What occurs when light passes from water into
flint glass?

(1) Its speed decreases, its wavelength becomes
shorter, and its frequency remains the same.
(2) Its speed decreases, its wavelength becomes
shorter, and its frequency increases.
(3) Its speed increases, its wavelength becomes
longer, and its frequency remains the same.
(4) Its speed increases, its wavelength becomes
longer, and its frequency decreases.		 _____

Waves Flash Cards

24a) Electromagnetic waves can propagate through a ______. (sound can't)

b) All frequencies of electromagnetic radiation travel at the same ______ in a vacuum.

An opera singer’s voice is able to break a thin crystal glass when the singer’s voice and the vibrating glass have the same

(1) frequency (2) speed (3) amplitude (4) wavelength

  

___________

 

___________

 

_______
25. As a monochromatic beam of light passes obliquely from flint glass into water, how do the characteristics of the beam of light change?

(1) Its wavelength decreases and its frequency decreases.
(2) Its wavelength decreases and its frequency increases.
(3) Its wavelength increases and it bends toward the normal.
(4) Its wavelength increases and it bends away from the normal.

What type of wave is sound traveling in water?

(1) torsional (3) elliptical
(2) transverse (4) longitudinal

_____

 

 

_____
26. Which phrase best describes a periodic wave?

(1) a single pulse traveling at constant speed
(2) a series of pulses at irregular intervals
(3) a series of pulses at regular intervals
(4) a single pulse traveling at different speeds in
the same medium



_____

 

27. The hertz is a unit that describes the number of

(1) seconds it takes to complete one cycle of a wave
(2) cycles of a wave completed in one second
(3) points that are in phase along one meter of a wave
(4) points that are out of phase along one meter of a wave

28. As a sound wave travels through air, there is a net transfer of

(1) energy, only  (2) mass, only
(3) both mass and energy  (4) neither mass nor energy

 _____

 

_____

Waves Flash Cards

29. A nearby object may vibrate strongly when a specific frequency of sound is emitted from a loudspeaker. This phenomenon is called

(1) resonance (3) reflection
(2) the Doppler effect (4) interference

30. Two identical guitar strings are tuned to the same pitch. If one string is plucked, the other nearby string vibrates with the same frequency. This phenomenon is called

(1) resonance (2) reflection
(3) refraction (4) destructive interference

 _____

 

_____
31. When a student looks into a plane mirror, she sees a virtual image of herself. However, when she looks into a sheet of paper, no such image forms. Which light phenomenon occurs at the surface of the paper?

(1) regular reflection (3) polarization
(2) diffuse reflection (4) resonance

32. Light from the star Betelgeuse displays a Doppler red shift. This shift is best explained by assuming that Betelgeuse is

(1) decreasing in temperature (2) increasing in temperature
(3) moving toward Earth (4) moving away from Earth

 _____

 

 

_____

33. A monochromatic beam of light has a frequency of 6.5 X 1014 hertz. What color is the light?

(1) yellow (3) violet
(2) orange (4) blue

Two waves having the same amplitude and the same frequency pass simultaneously through a uniform medium. Maximum destructive interference occurs when the phase difference between the two waves is

(1) 0° (2) 90° (3) 180° (4) 360°

 		_____

 

_____
34. The energy of a water wave is most closely related to its

(1) frequency (3) period (2) wavelength (4) amplitude		 _____

Waves Flash Cards

35. If all parts of a light beam have a constant phase relationship, with the same wavelength and frequency, the light beam is

(1) monochromatic and coherent
(2) monochromatic and incoherent
(3) polychromatic and coherent
(4) polychromatic and incoherent

 		_____
36. A light spring is attached to a heavier spring at
one end. A pulse traveling along the light spring
is incident on the boundary with the heavier
spring. At this boundary, the pulse will be

1 totally reflected    2 totally absorbed
3 totally transmitted into the heavier spring
4 partially reflected and partially transmitted
into the heavier spring
 		 _____
37. As a wave travels through a medium, the particles
of the medium vibrate in the direction of the
wave’s travel. What type of wave is traveling
through the medium?

1 longitudinal 2 torsional  3 transverse 4 hyperbolic

38. The driver of a car blows the horn as the car
approaches a crosswalk. Compared to the actual
pitch of the horn, the pitch observed by a pedestrian in the crosswalk is

1 lower 2 higher 3 the same

_____

 

_____

 
39. Compared to wavelengths of visible light, the
wavelengths of ultraviolet light are

1 shorter 2 longer 3 the same

40. As a pulse travels along a rope, the pulse loses
energy and its amplitude

1 decreases  2 increases  3 remains the same

_____

_____

Waves Flash Cards

41. The diagram below shows two sources, A and B, vibrating in phase in the same uniform medium and producing circular wave fronts.

Which phenomenon occurs at point P?

1 destructive interference

2 constructive interference

3 reflection

4 refraction

 _____

42. Three waves, A, B, and C, travel 12 meters in 2.0 seconds through the same medium as shown in the diagram below.

a) What is the amplitude of wave C?
b) What is the wavelength of wave A?  
c) What is the speed of wave B?

a) _____

b) _____

c) _____  

43. What occurs as a ray of light passes from air into water?

(1) The ray must decrease in speed.
(2) The ray must increase in speed.
(3) The ray must decrease in frequency.
(4) The ray must increase in frequency.

In which part of the electromagnetic spectrum does a photon have the greatest energy?

(1) red (2) infrared (3) violet (4) ultraviolet

 _____

 

_____

44. The diagram below represents a periodic wave. Which two points on the wave are in phase?


(1) A and D (2) A and G (3) C and K  (4) D and I

____