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No, in a vacuum infrared radiation has a wave length of between 10^-6 and 10^-2 while radio waves have 10^-1 and beyond and long radio waves have a length of 10^3 and beyond.
Convert the cm to meters, to have compatible units. Then use the fact that the frequency times the wavelength is equal to the speed of the wave. In this case, you can divide the speed by the wavelength, to get the frequency.
340 m/s
it gets divided by 10; frequency = speed/wavelength; wavelength = speed/frequency
1.0 x 10-2 = 0.01 If the wave is a sound wave in air, then its wavelength is (343/0.01) = 34,300 meters. (about 21.3 miles) If the wave is an electromagnetic wave in space then its wavelength is (299,792,458/0.01) = 29,979,245,800 meters. (about 18,628,200 miles)
1 x 10^-4
No, in a vacuum infrared radiation has a wave length of between 10^-6 and 10^-2 while radio waves have 10^-1 and beyond and long radio waves have a length of 10^3 and beyond.
To calculate it's frequency the equation to use is frequency = speed of light (3*10^8) divided by the wavelength (2.33*10^-5). Therefore the answer would be 1.29*10^13.
Convert the cm to meters, to have compatible units. Then use the fact that the frequency times the wavelength is equal to the speed of the wave. In this case, you can divide the speed by the wavelength, to get the frequency.
The speed of a wave = (wavelength) times (frequency) = (10) x (1/2) = 5 meters per second.
10 feet
The wave base (the depth at which water moves) would be about 10 feet, or 1/2 the wavelength.
Tha wave base would be about 5 feet, as it is about 1/2 of the wavelength.
Frequency = (speed)/(wavelength) = 10/20 = 1/2
speed = distance over time = wavelength times frequency = 2 m times 10 hz = 20 m hz = 20 meters per second.
Wavelength = (speed) divided by (frequency) = 10/0.5 = 20
340 m/s