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If two waves traveling at the same speed have different frequencies which wave has more energy?
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Which ever is the highest frequency
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∙ 14y ago
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Are the speed of ultrasonic and audible sound wave same?
Traveling in the same medium, they have the same speed - just different frequencies (and wavelengths).
If Two sound waves traveling through the air have different frequencies they must also have different?
they have different wavelengths the higher the frequency the shorter the wavelength. the speed is the same
In which type of wave is energy transmitted in a definite direction and with definite speed?
A traveling wave is a type of wave in which energy is transmitted in a definite direction and with a definite speed.
Can two people be moving in different speed and have same kinetec energy?
Certainly, because kinetic energy is determined by both mass and speed. If I'm traveling at 1/2 the speed that you are, but I have 4 times as much mass as you have, then our kinetic energies are equal. And for an example in the other direction . . . If my mass is only 1% of yours, but I'm traveling at 10 times your speed, then our kinetic energies are equal. That's how a bullet or a baseball can knock a grown person off his feet. Kinetic Energy = 1/2 (mass) x (speed)2
Does the frequency is inversely proportional to wavelength?
Yes. The wavelength times the frequency is equal to the speed of the wave - and the speed is usually almost the same for different frequencies.
Are the speed of ultrasonic and audible sound wave same?
Traveling in the same medium, they have the same speed - just different frequencies (and wavelengths).
If Two sound waves traveling through the air have different frequencies they must also have different?
they have different wavelengths the higher the frequency the shorter the wavelength. the speed is the same
How can a car and semi truck have the same momentum?
By traveling at the same speed. Kinetic energy is a completely different story, however.
Are Speed and Response time could be kinetic energy?
No. Speed, time, and energy are three quite different units.No. Speed, time, and energy are three quite different units.No. Speed, time, and energy are three quite different units.No. Speed, time, and energy are three quite different units.
What can you say about the speed of different colors in air?
You can that they're all identical.
How do wavelength and frequency relate to the speed of light?
c=lamda*f c is a constant, which is the speed of light, lamda is the wavelength which the light is traveling at, and f is the frequency of the light. All light travels at the speed of light no matter what colour, however ever colour tavels at different wavelengths and frequencies.
In which type of wave is energy transmitted in a definite direction and with definite speed?
A traveling wave is a type of wave in which energy is transmitted in a definite direction and with a definite speed.
Does the frequency is inversely proportional to wavelength?
Yes. The wavelength times the frequency is equal to the speed of the wave - and the speed is usually almost the same for different frequencies.
Can two people be moving in different speed and have same kinetec energy?
Certainly, because kinetic energy is determined by both mass and speed. If I'm traveling at 1/2 the speed that you are, but I have 4 times as much mass as you have, then our kinetic energies are equal. And for an example in the other direction . . . If my mass is only 1% of yours, but I'm traveling at 10 times your speed, then our kinetic energies are equal. That's how a bullet or a baseball can knock a grown person off his feet. Kinetic Energy = 1/2 (mass) x (speed)2
Is a race-car traveling at its maximum speed potential or kinetic energy?
A car is not energy; it may have energy. The energy related to movement is called kinetic energy.
Why does a train have more kinetic energy than a car traveling at the same speed?
Kinetic energy also depends on mass.
Is speed related to the color of a light wave?
No. All colors of light travel at the same speed in vacuum. Different colors represent light waves with different wavelengths (frequencies).
