Review Game Zone
Games
Test
Preview
Back
Match it!
Match it! Select the correct answer from the pull down...Good luck!
Which of the following accurately identifies the amplitude of this wave?
Wave D
Violet
The bell will continue to ring but it will not be heard because there is no medium to transmit the sound waves.
A and E
B
Particles of matter in the medium vibrate by moving back and forth and perpendicular (at right angles) to the direction the
Light waves are electromagnetic waves that do not require a medium to transmit energy
Increase the speed they transmit energy down the slinky spring.
Which of these waves has the greatest volume, but the lowest pitch?
Wave D
Violet
The bell will continue to ring but it will not be heard because there is no medium to transmit the sound waves.
A and E
B
Particles of matter in the medium vibrate by moving back and forth and perpendicular (at right angles) to the direction the
Light waves are electromagnetic waves that do not require a medium to transmit energy
Increase the speed they transmit energy down the slinky spring.
What would the teacher and the student have to do to make the wavelengths of the slinky spring decrease?
Wave D
Violet
The bell will continue to ring but it will not be heard because there is no medium to transmit the sound waves.
A and E
B
Particles of matter in the medium vibrate by moving back and forth and perpendicular (at right angles) to the direction the
Light waves are electromagnetic waves that do not require a medium to transmit energy
Increase the speed they transmit energy down the slinky spring.
Which of the following two letters accurately identifies a wavelength of this wave?
Wave D
Violet
The bell will continue to ring but it will not be heard because there is no medium to transmit the sound waves.
A and E
B
Particles of matter in the medium vibrate by moving back and forth and perpendicular (at right angles) to the direction the
Light waves are electromagnetic waves that do not require a medium to transmit energy
Increase the speed they transmit energy down the slinky spring.
Which color of the visible spectrum has the greatest energy?
Wave D
Violet
The bell will continue to ring but it will not be heard because there is no medium to transmit the sound waves.
A and E
B
Particles of matter in the medium vibrate by moving back and forth and perpendicular (at right angles) to the direction the
Light waves are electromagnetic waves that do not require a medium to transmit energy
Increase the speed they transmit energy down the slinky spring.
Which of the following best explains why light from distant stars can travel through the vacuum of space?
Wave D
Violet
The bell will continue to ring but it will not be heard because there is no medium to transmit the sound waves.
A and E
B
Particles of matter in the medium vibrate by moving back and forth and perpendicular (at right angles) to the direction the
Light waves are electromagnetic waves that do not require a medium to transmit energy
Increase the speed they transmit energy down the slinky spring.
Which of the following explanations best describes the relationship between the matter and energy being modeled in the slinky spring?
Wave D
Violet
The bell will continue to ring but it will not be heard because there is no medium to transmit the sound waves.
A and E
B
Particles of matter in the medium vibrate by moving back and forth and perpendicular (at right angles) to the direction the
Light waves are electromagnetic waves that do not require a medium to transmit energy
Increase the speed they transmit energy down the slinky spring.
Which of the following best explains what will happen to the sound of the bell when all the air is pumped out of the bell jar?
Wave D
Violet
The bell will continue to ring but it will not be heard because there is no medium to transmit the sound waves.
A and E
B
Particles of matter in the medium vibrate by moving back and forth and perpendicular (at right angles) to the direction the
Light waves are electromagnetic waves that do not require a medium to transmit energy
Increase the speed they transmit energy down the slinky spring.
Check it!