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What will the result be when this happens Velocity of a wave increases and the wavelength stays the same?
This is not true practically. Theoretically speaking as velocity increases with wavelength remains constant, then frequency has to increase accordingly. Since the formula for velocity is given as: velocity of the wave v = frequency (nu) * wavelength (lamda).
In reality the characteristic, namely, frequency remains constant when the speed of the wave changes as it traverses in different medium.
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What will the result be when this happens Velocity of a wave increases and the wavelength stays the same.?
This is not true practically. Theoretically speaking as velocity increases with wavelength remains constant, then frequency has to increase accordingly. Since the formula for velocity is given as: velocity of the wave v = frequency (nu) * wavelength (lamda). In reality the characteristic, namely, frequency remains constant when the speed of the wave changes as it traverses in different medium.
What will be the result when Velocity of a wave increases and the wavelength stays the same?
If the velocity of a wave increases while the wavelength stays the same, the frequency of the wave will also increase. This is because the speed of a wave is determined by the product of its frequency and wavelength. Therefore, if the speed increases and the wavelength remains constant, the frequency must also increase.
What will the result be when this happens Frequency of a wave increases and the wavelength stays the same.?
velocity increases
What would the result be if the frequency of a wave increases and the velocity stays the same?
The velocity of the wave is equal to the product of the frequency and the wavelength. Therefore, for constant wavelength, the wavelength will decrease. Furthermore, for an electromagnetic wave, the energy of the wave E = hf, where h is Planck's constant and f is the frequency, the energy of the wave decreases as frequency decreases (and the velocity within a vacuum is always constant and equal to c).
What will the result be when the velocity of a wave increases and the wavelength stays the same?
If the velocity of a wave increases while the wavelength stays the same, the frequency of the wave must also increase to maintain the relationship between velocity, frequency, and wavelength (v = f * λ). This means the wave will have more cycles passing through a point in a given time period, resulting in a higher pitch or frequency.
What will the result be when Velocity of a wave increases and the wavelength stays the same?
the frequency of the wave increases.
What will the result be when this happens Velocity of a wave increases and the wavelength stays the same.?
This is not true practically. Theoretically speaking as velocity increases with wavelength remains constant, then frequency has to increase accordingly. Since the formula for velocity is given as: velocity of the wave v = frequency (nu) * wavelength (lamda). In reality the characteristic, namely, frequency remains constant when the speed of the wave changes as it traverses in different medium.
What will be the result when Velocity of a wave increases and the wavelength stays the same?
If the velocity of a wave increases while the wavelength stays the same, the frequency of the wave will also increase. This is because the speed of a wave is determined by the product of its frequency and wavelength. Therefore, if the speed increases and the wavelength remains constant, the frequency must also increase.
What will the result be when this happens Frequency of a wave increases and the wavelength stays the same.?
velocity increases
What would the result be if the frequency of a wave increases and the velocity stays the same?
The velocity of the wave is equal to the product of the frequency and the wavelength. Therefore, for constant wavelength, the wavelength will decrease. Furthermore, for an electromagnetic wave, the energy of the wave E = hf, where h is Planck's constant and f is the frequency, the energy of the wave decreases as frequency decreases (and the velocity within a vacuum is always constant and equal to c).
What will the result be when the velocity of a wave increases and the wavelength stays the same?
If the velocity of a wave increases while the wavelength stays the same, the frequency of the wave must also increase to maintain the relationship between velocity, frequency, and wavelength (v = f * λ). This means the wave will have more cycles passing through a point in a given time period, resulting in a higher pitch or frequency.
Velocity of a wave increases and the wavelength stays the same. What will the result be when this happens?
Assuming an electromechanical wave not much. The speed of the wave depends on the medium that the wave is passing through. In a vacuum it is the speed of light, through something else a lesser speed. The wavelength stays the same and the frequency stays the same.
What happens to the wavelength of a wave that slows down while retaining its original frequency?
As the basic formula of all types of waves is (Velocity of a wave=the product of the wavelength of it and its frequency). In this case, frequency of a certain wave is constant and the velocity is decreasing. And as the velocity is directly proportional to the wavelength, the wavelength of the wave shortens as a result.
What happens to the momentum if the mass stays the same but the velocity is increased?
If the mass stays the same but the velocity is increased, the momentum of the object will also increase. Momentum is directly proportional to velocity, so an increase in velocity will result in a proportionate increase in momentum.
Why does the peak emission wavelength increase with temperature?
The band gap of the semiconductor decreases as the temp. increases, and with formulae E = hv (which is inverse of the wavelength) as a result wavelength increases. reference: http://ecee.colorado.edu/~bart/book/eband5.htm
What happends to kinetic energy when the velocity increases?
When velocity increases, kinetic energy also increases. Kinetic energy of an object is directly proportional to its velocity squared, so even a small increase in velocity can result in a significant increase in kinetic energy.
What happens when a fluid at constant pressure is moved at a smaller area?
Force increases.
