Wavelength is given in meters, while Hz is 1/seconds. Multiplying the two numbers gives meters/second. So 16,000 m/s.
Frequency(ν) = 5 Hz = 5 s-1
Wavelength(λ) = 20 m
Speed of wave = ν x λ = 5 x 20 = 100 m/s
The frequency is 15 MHz.
The formula related to frequency and wavelength is Wavelength = 300000000 / Frequency (f) Wavelength = 300000000 / 30000000000 Wavelength = 1/100 Wavelength = 0.01 meter OR Wavelength = 10 milimeter
By the frequency. The higher the frequency, the shorter the wavelength. The lower the frequency the longer the wave length. C= L * f C = Time in milliseconds (343 m/s @ 20 degrees C , L= Wave Length or Lambda in meters and f= frequency in Hertz A little algebra and you have; L= C/f Example; 343 m/s / 100 Hz = .343 meters Frequency is a function of time, cycles per second. Time is the reciprocal of frequency (1/f= T).
The wavelength is about 67 centimeters, regardless of how far it travels.
AnswerA gamma ray is a form of electromagnetic energy, and it is found at the extreme end of the electromagnetic spectrum above X-rays, whose wavelengths overlap a bit. Gamma rays have wavelengths on the order of 10-11 meters (or 10 picometers) and less (shorter). This corresponds to frequencies of 30 x 1018 Hz and up, and energies of 100 keV and up. Gamma rays are produced by subatomic particle interactions, and this type of radiation is a form of ionizing radiation with considerable penetration power.AnswerThe wavelength refers to the distance that the wave travels before repeating itself; that is, wavelength is measured in meters per cycle, whereas frequency is measured in cycles per second. The frequency and wavelength will always be related by [ Frequency * Wavelength = c (speed of light) ]. Gama Rays (and all other forms of EM radiation) are both particles and waves. Quantum physics is required to understand why that is. Wavelength has nothing to do with the quantity of light (intensity) or velocity (which is always exactly c). A single photon will behave like a particle, so frequency and wavelength don't have much meaning, but when large quantities of photons are observed, their interactions are best modeled by waves.
Frequencies and wavelengths (APEX)
velocity = frequency × wavelength frequency = velocity / wavelength f= 100 /20 f= 5 Hz
wave velocity = frequency in Hz x wavelength in meterSo frequency = 5 Hz and wavelength = distance between successive peaks = 20 cm = 20/100 mHence wave velocity = 5 * 20/100 = 1 m/s
An electromagnetic wave has a velocity "c", the universal wave equation velocity = wavelength * frequencythe wavelength then equal c / frequencythen the wavelength of that wave is : Lambda= c / Nu= 299792458 / 3*1000000 = 99.930819333333333333333333333333 meters ~ 100 meters(Lambda is the wavelength, Nu is the frequency).====================================To summarize:Wavelength = (speed) / (frequency) = (3 x 108) / (3 x 106) = 102 = 100 meters, in vacuum
By the v=f'lambda' formula (v= velocity; f= frequency; lambda= wavelength) it's 20m/s.
Frequency = Velocity / Wavelength = 100 m/s / 20 m = 5 s-1 or 5 Hz.
The formula related to frequency and wavelength is Wavelength = 300000000 / Frequency (f) Wavelength = 300000000 / 30000000000 Wavelength = 1/100 Wavelength = 0.01 meter OR Wavelength = 10 milimeter
Frequency = speed/wavelength = 300,000,000/3 = 100 MHz.
Frequency = speed/wavelength = 300,000,000/3 = 100 MHz.
Wavelength = speed/frequency = 300,000,000/100,000,000 = 3 meters
Wavelength = (speed)/(frequency) = 300,000,000m/s/3,000(1/s) = 100,000 meters or 100 km
Frequency = (speed) / (wavelength) = 900/9 = 100 Hz.
Period = 1/ frequency So period = 1/100 = 0.01 second