0
What else can I help you with?
How are amplitude wavelength and frequency related?
The wavelength and frequency of any wave are inversely proportional. Neither of them is related to the wave's amplitude in any way.
How does increasing the wavelength affect the frequency?
The product of (frequency) times (wavelength) is always the same number ... it's the speed of the wave. So if the frequency is changed by some percentage, the wavelength changes by the same percentage in the other direction, in order to keep their product the same as it was.
How do you calculate the amplitude given the frequency and the wavelength?
To calculate the amplitude given the frequency and wavelength, you would need additional information. Amplitude is a measure of the maximum displacement from the equilibrium position in a wave, which requires knowing the wave equation or properties of the medium carrying the wave. Frequency and wavelength alone do not determine the amplitude of a wave.
Which equation should be used to calculate the speed of a wave?
The equation that should be used to calculate the speed of a wave is: speed = frequency x wavelength. This equation demonstrates the relationship between the frequency of the wave (number of complete cycles per second) and its wavelength (distance between two corresponding points on the wave).
How wavelength frequency and amplitude affect the charasterics?
The wavelength and frequency affect how the way is perceived. In sound it would affect the pitch that you hear, in the visible light spectrum it would affect what color you see. The amplitude would be how easy it is to perceive, it is the intensity (magnitude) of the wave.
How does the frequency of a wave change as its wave length changes?
You can see how the frequency of a wave changes as its wavelength changes by using the formula Velocity= wavelength x frequencyIf for example we are talking about the speed of light (Which does change) and the wavelength is reduced, then the frequency has to increase in order to balance out to the speed of light.Another way to view it is like this:The frequency of a wave changes with the wavelength by what happens to the wavelength. For instance, if the wavelength is doubled, the frequency is halved, and vise versa.
How are amplitude wavelength and frequency related?
The wavelength and frequency of any wave are inversely proportional. Neither of them is related to the wave's amplitude in any way.
How does increasing the wavelength affect the frequency?
The product of (frequency) times (wavelength) is always the same number ... it's the speed of the wave. So if the frequency is changed by some percentage, the wavelength changes by the same percentage in the other direction, in order to keep their product the same as it was.
How do you calculate the amplitude given the frequency and the wavelength?
To calculate the amplitude given the frequency and wavelength, you would need additional information. Amplitude is a measure of the maximum displacement from the equilibrium position in a wave, which requires knowing the wave equation or properties of the medium carrying the wave. Frequency and wavelength alone do not determine the amplitude of a wave.
Which equation should be used to calculate the speed of a wave?
The equation that should be used to calculate the speed of a wave is: speed = frequency x wavelength. This equation demonstrates the relationship between the frequency of the wave (number of complete cycles per second) and its wavelength (distance between two corresponding points on the wave).
How wavelength frequency and amplitude affect the charasterics?
The wavelength and frequency affect how the way is perceived. In sound it would affect the pitch that you hear, in the visible light spectrum it would affect what color you see. The amplitude would be how easy it is to perceive, it is the intensity (magnitude) of the wave.
What happens to the frequency if you increase your wavelength and keep wave speed the same?
There is no way to change the wave speed, propagation speed other than changing the density of the medium. If you increase the frequency the wavelength gets shorter, which is true with both light and sound, so if the wavelength is increased the frequency will be less. Since the speed slows in a denser material we can make lenses and prisms.
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.
If the frequency of a wave decrease but the wavelength remains the same what else decrease in the wave?
The velocity decreases. Its the only way.
Does the frequency of a wave increase as the wavelength decreases?
Because the product of (frequency times wavelength) is always the same number ... it's the speed of the wave. So if one of them changes, the other one has to change in the opposite direction, in order for the product to remain the same number.
Calculate the wavelength of an x ray with a frequency of 2.01018 Hz?
Electromagnetic radiation, which includes light and x-rays, travels at 299,792,458 metres per second (c - a universal constant). Speed, frequency and wavelength are related by the equation speed = frequency times wavelength. The only problem with this question is that a frequency of 2.01018 Hz is not in the x-ray range of frequencies. X-rays are found in the frequency range of 30 petaHertz to 30 exaHertz. To put it another way, electromagnetic radiation with a frequency of 2.01018 Hz has a wavelength of 149,137 kilometers (92,669 miles), and that's no X-ray.
Definition of Fundamental frequency and waves?
The fundamental frequency of a wave is the lowest frequency (longest wavelength) that can be used to define its period. The easiest way to understand it is via a musical analogy: The fundamental frequency is the root tone of the overtone or harmonic series.
