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Because their product is always the same number ... the speed of the wave.
The only way for their product to remain constant is if they change in opposite directions.
What else can I help you with?
As the wavelength of a wave increases on the electromagnetic spectrum what happens to the energy of the wave?
As a wavelength increases in size, its frequency and energy (E) decrease.
How the wavelengths of waves traveling with the same speed would change if the frequency of the waves increase?
The speed of a wave is equal to the wavelength divided by the frequency (speed = wavelength/frequency). So if the frequency of the wave increases, the wavelength will decrease.
What will the frequency of a wave do if the period of the wave increases?
If the period increases, the frequency decreases.The product of (frequency) times (period) is always ' 1 '.
When does wave frequency decrease?
Wave frequency decreases when the wavelength of the wave increases. This means that less waves pass through a point in a given time, resulting in a decrease in frequency.
How does the energy assoicated with waves change wave length changes?
As the wavelength of a wave decreases, the energy associated with the wave increases. This is because the energy of a wave is directly proportional to its frequency, and since frequency is inversely proportional to wavelength (wavelength = speed of wave / frequency), a decrease in wavelength results in an increase in frequency and energy.
As the wavelength of a wave increases on the electromagnetic spectrum what happens to the energy of the wave?
As a wavelength increases in size, its frequency and energy (E) decrease.
If a frequency of a wave increases what will happen?
Increase decrease. The frequency MUST decrease.
How the wavelengths of waves traveling with the same speed would change if the frequency of the waves increase?
The speed of a wave is equal to the wavelength divided by the frequency (speed = wavelength/frequency). So if the frequency of the wave increases, the wavelength will decrease.
If the of a wave increases its frequency must decrease.?
period
What will the frequency of a wave do if the period of the wave increases?
If the period increases, the frequency decreases.The product of (frequency) times (period) is always ' 1 '.
When does wave frequency decrease?
Wave frequency decreases when the wavelength of the wave increases. This means that less waves pass through a point in a given time, resulting in a decrease in frequency.
How does the energy assoicated with waves change wave length changes?
As the wavelength of a wave decreases, the energy associated with the wave increases. This is because the energy of a wave is directly proportional to its frequency, and since frequency is inversely proportional to wavelength (wavelength = speed of wave / frequency), a decrease in wavelength results in an increase in frequency and energy.
What will happen as frequency of a wave increases and the speed remains constant?
As the frequency of a wave increases while the speed remains constant, the wavelength of the wave will decrease. This is because the speed of a wave is the product of its frequency and wavelength, according to the wave equation v = f * λ. So if the speed is constant and frequency increases, wavelength must decrease to maintain this relationship.
How is the frequency of an ME wave related to its energy?
The frequency of an electromagnetic (EM) wave is directly proportional to its energy. This means that as the frequency of the EM wave increases, so does its energy. Conversely, a decrease in frequency leads to a decrease in energy of the EM wave.
Which one will be affected if the frequency increase?
If the frequency increases, the wavelength of the wave will decrease while the energy of the wave will increase.
What happens to the wave when you decrease the wave period?
When you decrease the wave period, the wavelength becomes shorter and the frequency increases. This results in the wave moving faster.
How does frequency of a wave affect diffraction?
As the frequency of a wave decreases, the diffraction of the wave increases. Lower frequency waves have longer wavelengths, which makes them more prone to diffraction around obstacles. Conversely, higher frequency waves, with shorter wavelengths, exhibit less diffraction.
