wave velocity = frequency in Hz x wavelength in meter
So frequency = 5 Hz and wavelength = distance between successive peaks = 20 cm = 20/100 m
Hence wave velocity = 5 * 20/100 = 1 m/s
Convert the wavelength to meters. Then use the formula:speed (of the wave) = frequency x wavelength
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Frequency is how many waves pass a certain point during an amount of time. Wavelength is the distance between two points. Frequency and wavelength are inversely proportional in Physics. If the distance between the peaks of a wave decreases, the frequency of the wave increases. If the distance is increased, the frequency decreases.
Measure the time between successive peaks, and take the reciprocal of this to get cycles per second.
frequency - number of cycles in one secondamplitude - height of the peakswavelength - distance between peaks (or any other pair of identical points on the wave)
Use the formula v=fλv=Speed of the wave (Light travels about 3x10^8 m/s)λ=wave length (distance from one peak to the next)so by rearranging the formula to v/λ =frequency, you can work out the frequency of the wave by using the distance between peaks (as the wavelength) divided by the speed of the wave.Hope this helps
The amplitude is the maximum displacement. The frequency is the number of peaks (or troughs) that occur in unit time (usually a second).
wavelenght is the distance between the 2 peaks in sound waves and can be calculated by Wavelenght is = wave speed/ frequency or wave speed __________ frequency
The relationship between frequency and wavelength is shown by the equation: v= f (lambda) where v is velocity, f is frequency, and lambda is wavelength. The wavelenth is the distance between two analogous points in the wave (ie. two peaks, or two troughs), and the frequency is the number of wavelenths per second.
Frequency is how many waves pass a certain point during an amount of time. Wavelength is the distance between two points. Frequency and wavelength are inversely proportional in Physics. If the distance between the peaks of a wave decreases, the frequency of the wave increases. If the distance is increased, the frequency decreases.
Measure the time between successive peaks, and take the reciprocal of this to get cycles per second.
frequency - number of cycles in one secondamplitude - height of the peakswavelength - distance between peaks (or any other pair of identical points on the wave)
Use the formula v=fλv=Speed of the wave (Light travels about 3x10^8 m/s)λ=wave length (distance from one peak to the next)so by rearranging the formula to v/λ =frequency, you can work out the frequency of the wave by using the distance between peaks (as the wavelength) divided by the speed of the wave.Hope this helps
The amplitude is the maximum displacement. The frequency is the number of peaks (or troughs) that occur in unit time (usually a second).
Wave length is the inverse of frequency. It is the distance between two peaks, or the distance between two troughs, of an energy wave. Drop a rock into a pond. You get expanding waves. If you observe a wave as it goes past a certain point, you can measure the frequency, the wavelength, and the speed. These three numbers are related - given two you can calculate the third. Its the same with light, only the speed is rather fast - about 186,000 miles per second - or about 300 million meters per second.
It is the distance between two peaks or two troughs in a wave.
This is hard to explain without drawing a picture! If you imagine a wave going up and down (a bit like this.....ununun) then wavelength is the distance between the peaks or troughs (high and low points) on the wave. The frequency is how many oscillations of a wave there are in certain distance or time. So the shorter the wavelength the higher the frequency because you can fit more waves into a certain distance. So longer wavelengths have a lower frequency.
the distance between peaks of a wave
Waves are characterized by wavelength, frequency, and speed. Wavelength is the distance between two consecutive peaks or troughs in a wave. The frequency is defined as the number of waves (cycles) per second that pass a given space. Since all types of electromagnetic radiation travel at the speed of light, short-wavelength radiation must have a high frequency and long-wavelength radiation must have a low frequency.