How does frequency relate to the wavelength of a wave? (1 point)
Responses
Higher frequency, shorter wavelength
Higher frequency, shorter wavelength
Higher frequency, longer wavelength
Higher frequency, longer wavelength
Frequency and wavelength are not related.
Frequency and wavelength are not related.
31 answers
Higher frequency, shorter wavelength
Which type of wave can travel through a vacuum (empty space)? (1 point)
Responses
Sound wave
Sound wave
Water wave
Water wave
Light wave
Responses
Sound wave
Sound wave
Water wave
Water wave
Light wave
Light wave
Which of the following is an example of a digital device used to study waves? (1 point)
Responses
Microscope
Microscope
Oscilloscope
Oscilloscope
Telescope
Responses
Microscope
Microscope
Oscilloscope
Oscilloscope
Telescope
Oscilloscope
All waves carry: (1 point)
Responses
Energy
Energy
Particles
Particles
Matter
Matter
Light
Responses
Energy
Energy
Particles
Particles
Matter
Matter
Light
Energy
Letter D represents the ________ of the wave.
(1 point)
Responses
Frequency
Frequency
Amplitude
Amplitude
Crest
Crest
Wavelength
Wavelength
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(1 point)
Responses
Frequency
Frequency
Amplitude
Amplitude
Crest
Crest
Wavelength
Wavelength
Skip to navigation
Crest
Which of these waves would have the greatest amount of energy?
(1 point)
Responses
A
A
B
B
Their energy is equal
Their energy is equal
There is not enough information
(1 point)
Responses
A
A
B
B
Their energy is equal
Their energy is equal
There is not enough information
There is not enough information to determine which wave has the greatest amount of energy.
Which wave has the lowest amplitude? (1 point)
Responses
Responses
There are no given options to choose from. Please provide the options for me to assist you further.
What is the primary advantage of using digital devices to study waves?(1 point)
Responses
They allow for more accurate measurements and analysis
They allow for more accurate measurements and analysis
They are cheaper than analog devices
They are cheaper than analog devices
They can only measure one type of wav
Responses
They allow for more accurate measurements and analysis
They allow for more accurate measurements and analysis
They are cheaper than analog devices
They are cheaper than analog devices
They can only measure one type of wav
They allow for more accurate measurements and analysis
How does a digital device help improve our understanding of wave transmission? (1 point)
Responses
By creating physical barriers for waves
By creating physical barriers for waves
By converting analog signals into digital ones
By converting analog signals into digital ones
By allowing visualization, manipulation, and analysis of wave data
Responses
By creating physical barriers for waves
By creating physical barriers for waves
By converting analog signals into digital ones
By converting analog signals into digital ones
By allowing visualization, manipulation, and analysis of wave data
By allowing visualization, manipulation, and analysis of wave data
A two-way radio set, like a walkie-talkie, usually works with an analog signal rather than a digital signal. What is the disadvantage of this device?(1 point)
Responses
The analog walkie-talkie is more difficult to use.
The analog walkie-talkie is more difficult to use.
The analog walkie-talkie has less noise.
The analog walkie-talkie has less noise.
The analog walkie-talkie is not as clear.
The analog walkie-talkie is not as clear.
The analog walkie-talkie is likely to be more expensive.
The analog walkie-talkie is likely to be more expensive.
Responses
The analog walkie-talkie is more difficult to use.
The analog walkie-talkie is more difficult to use.
The analog walkie-talkie has less noise.
The analog walkie-talkie has less noise.
The analog walkie-talkie is not as clear.
The analog walkie-talkie is not as clear.
The analog walkie-talkie is likely to be more expensive.
The analog walkie-talkie is likely to be more expensive.
The analog walkie-talkie is not as clear.
Which of the following options is the most dependable approach for transmitting waves to facilitate communication?(1 point)
Responses
Utilizing printed newspapers and magazines.
Utilizing printed newspapers and magazines.
Employing a series of knocks on all the doors in the neighborhood.
Employing a series of knocks on all the doors in the neighborhood.
Employing fiber optics to transmit a digital signal.
Employing fiber optics to transmit a digital signal.
Sending a letter through the postal service.
Responses
Utilizing printed newspapers and magazines.
Utilizing printed newspapers and magazines.
Employing a series of knocks on all the doors in the neighborhood.
Employing a series of knocks on all the doors in the neighborhood.
Employing fiber optics to transmit a digital signal.
Employing fiber optics to transmit a digital signal.
Sending a letter through the postal service.
Employing fiber optics to transmit a digital signal.
What is a benefit of digitally storing information compared to analog?(1 point)
Responses
Replicating an analog file is never as accurate as its original version.
Replicating an analog file is never as accurate as its original version.
Digital storage requires less bandwidth or storage space than analog.
Digital storage requires less bandwidth or storage space than analog.
Analog information storage is continuous and captures a clearer sound.
Analog information storage is continuous and captures a clearer sound.
Sound can be recorded using either digital or analog methods.
Responses
Replicating an analog file is never as accurate as its original version.
Replicating an analog file is never as accurate as its original version.
Digital storage requires less bandwidth or storage space than analog.
Digital storage requires less bandwidth or storage space than analog.
Analog information storage is continuous and captures a clearer sound.
Analog information storage is continuous and captures a clearer sound.
Sound can be recorded using either digital or analog methods.
Digital storage requires less bandwidth or storage space than analog.
Which statement accurately describes the difference between digital and analog information?(1 point)
Responses
Digital information is like using steps, while analog is like a smooth flow.
Digital information is like using steps, while analog is like a smooth flow.
Digital information is more at risk of being interrupted by interference than analog information.
Digital information is more at risk of being interrupted by interference than analog information.
Digital information is represented by waves, while analog information is represented by light.
Digital information is represented by waves, while analog information is represented by light.
Digital information is continuous and smooth, while analog is discrete
Responses
Digital information is like using steps, while analog is like a smooth flow.
Digital information is like using steps, while analog is like a smooth flow.
Digital information is more at risk of being interrupted by interference than analog information.
Digital information is more at risk of being interrupted by interference than analog information.
Digital information is represented by waves, while analog information is represented by light.
Digital information is represented by waves, while analog information is represented by light.
Digital information is continuous and smooth, while analog is discrete
Digital information is like using steps, while analog is like a smooth flow.
Consider any ocean wave. What is the relationship between an ocean wave and the energy of that wave?
(1 point)
Responses
Wave energy is directly proportional to the amplitude of the wave.
Wave energy is directly proportional to the amplitude of the wave.
Wave energy increases with frequency and decreases with wavelength.
Wave energy increases with frequency and decreases with wavelength.
Wave energy decreases as the wave moves closer to shore.
Wave energy decreases as the wave moves closer to shore.
The greater the wavelength, the more kinetic energy the wave has.
(1 point)
Responses
Wave energy is directly proportional to the amplitude of the wave.
Wave energy is directly proportional to the amplitude of the wave.
Wave energy increases with frequency and decreases with wavelength.
Wave energy increases with frequency and decreases with wavelength.
Wave energy decreases as the wave moves closer to shore.
Wave energy decreases as the wave moves closer to shore.
The greater the wavelength, the more kinetic energy the wave has.
Wave energy is directly proportional to the amplitude of the wave.
Examine the timeline of relaying information to other people over the past few hundred years.
Pony Express, US Postal Mail, Fax Machine, Digital Image Submission
Which statement explains the reasons for this progression in information delivery?
(1 point)
Responses
The relay of information became less trustworthy as more digital technology was used.
The relay of information became less trustworthy as more digital technology was used.
The relay of information became more reliable as digital technology was used.
The relay of information became more reliable as digital technology was used.
The quality of the information became less reliable as more digital technology was used.
The quality of the information became less reliable as more digital technology was used.
The storage of information became more difficult as more digital technology was used.
Pony Express, US Postal Mail, Fax Machine, Digital Image Submission
Which statement explains the reasons for this progression in information delivery?
(1 point)
Responses
The relay of information became less trustworthy as more digital technology was used.
The relay of information became less trustworthy as more digital technology was used.
The relay of information became more reliable as digital technology was used.
The relay of information became more reliable as digital technology was used.
The quality of the information became less reliable as more digital technology was used.
The quality of the information became less reliable as more digital technology was used.
The storage of information became more difficult as more digital technology was used.
The relay of information became more reliable as digital technology was used.
Wave B has more energy than Wave A because the frequency of Wave B is greater.
Wave B has more energy than Wave A because the frequency of Wave B is greater.
Wave B has more energy: the amplitude of Wave B is double that of Wave A.
Wave B has more energy: the amplitude of Wave B is double that of Wave A.
Wave energy is directly proportional to frequency and wavelength, therefore Wave A has more energy.
Wave energy is directly proportional to frequency and wavelength, therefore Wave A has more energy.
Wave A has more energy than Wave B because the wavelength of Wave A is greater.
Wave B has more energy than Wave A because the frequency of Wave B is greater.
Wave B has more energy: the amplitude of Wave B is double that of Wave A.
Wave B has more energy: the amplitude of Wave B is double that of Wave A.
Wave energy is directly proportional to frequency and wavelength, therefore Wave A has more energy.
Wave energy is directly proportional to frequency and wavelength, therefore Wave A has more energy.
Wave A has more energy than Wave B because the wavelength of Wave A is greater.
Wave B has more energy: the amplitude of Wave B is double that of Wave A.