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What else can I help you with?
How do you find wavelength with frequency?
you count the waves. so for example you '~' would be a wavelength of 1.
How would you find frequency of a compressional wave?
That depends on the information available. You can try to measure the frequency, with specialized equipment. Or, you might measure the wavelength and the speed instead, and use the basic relationship for waves (speed = wavelength x frequency).
How can you find the wave speed from the wavelength and frequency?
Im fairly sure that its frequency multiplied by wavelength. Frequency is essentially waves per second, since hertz is cycles per second, so its distance (metres) times frequency (cycles per second), which gives speed (metres per second).
How do you find the wavelengths in meters of radiation what frequencies?
Wavelength x frequency = speed of the wave, so wavelength = speed / frequency. In SI units, wavelength (in meters) = speed (in meters/second) / frequency (in Hertz). If you are talking about electromagnetic waves in avacuum, use 300,000,000 m/s for the speed.
How do you find the frequency in frequency table if the given is percent of total?
find the frequency before finding the percent total -_- :)
How do you find frequency when it comes to waves?
frequency=wavespeed divided by wavelength.
How to find the resonant frequency of a room?
To find the resonant frequency of a room, you can use a sound frequency generator and a microphone to measure the frequency at which sound waves resonate the most in the room. This frequency is the room's resonant frequency.
How do you find frequency of diffracted waves?
To find the frequency of diffracted waves, one can use the formula: f_d = (v_sound / λ_d) where: f_d is the frequency of the diffracted wave, v_sound is the speed of sound in the medium, and λ_d is the wavelength of the diffracted wave.
What is the frequency if five waves pass a certain point in 10 seconds?
The frequency is 0.5 Hz. Since five waves pass in 10 seconds, you divide the number of waves by the time taken to find the frequency, which is five waves / 10 seconds = 0.5 Hz.
How can you find the frequency of a transverse wave by counting?
Count the number of waves passing a point in one second. That is frequency. Or count waves for 10 seconds and divide by 10.
How t find a waves frequency?
1/T, where T=period in seconds.
How do you find velocity when only the frequency is given?
The question is incomplete. Frequency of what? If it refers to electromagnetic waves, you won't need even frequency to determine velocity (in a vacuum), because it will always be c (the speed of light). You can compute the speed of other kinds of waves if you know the frequency and wavelength, but not from frequency alone. The formula is frequency x wavelength = velocity If the waves are electromagnetic, and you have only frequency, you can compute the wavelength using the same formula.
How do you find wavelength with frequency?
you count the waves. so for example you '~' would be a wavelength of 1.
How do you find frequency for waves?
To find the frequency of a wave, you can use the formula: frequency (f) = speed of the wave (v) / wavelength (λ). The frequency is measured in hertz (Hz) and represents the number of complete wave cycles that pass a point in a given time period.
Find the frequency of revolution of electron in the classical model of the hydrogen atom In what region of the spectrum are electromagnetic waves of this frequency?
6.6´1015 Hz, ultraviolet
When the frequency and wavelength are known answerer?
The frequency of a wave is inversely proportional to its wavelength. This means that as the frequency increases, the wavelength decreases, and vice versa. Mathematically, this relationship is described by the equation: speed of light = frequency x wavelength.
What amplitude and frequency does a radar waves have?
Radar waves typically have amplitudes in the range of microwatts to milliwatts. The frequency of radar waves can vary depending on the specific radar system, but common frequencies range from hundreds of megahertz to tens of gigahertz.
