Wave speed = (frequency) x (wavelength) = (80 per second) x (0.16 meter) = 12.8 meters/second
16 wave crests in 8 seconds is the same as 2 per second. 2 is the frequency - 2 Hertz, to be precise.16 wave crests in 8 seconds is the same as 2 per second. 2 is the frequency - 2 Hertz, to be precise.16 wave crests in 8 seconds is the same as 2 per second. 2 is the frequency - 2 Hertz, to be precise.16 wave crests in 8 seconds is the same as 2 per second. 2 is the frequency - 2 Hertz, to be precise.
Period = 1/frequency = 1/60 = 16 and 2/3 milliseconds
a longitudinal wave is a vibration like sound therfore a longditudinal wave is a sound. The pressure Vibrations of frequency between 16 - 20000 hertz, which propagates in medium we perceive as a sound. But longitudinal mechanical wave is not necessarily sound - for example wave along the spring, or density waves forming spiral structure of galaxies!
no
Very simple formula: speed of the wave = frequency x wavelength This is applicable for both mechanical waves such as sound and electromagnetic waves such as visible light. In case of sound the speed at room temperature would be almost 340 m/s. Hence wavelength = 340/320 = (17/16) m
16 wave crests in 8 seconds is the same as 2 per second. 2 is the frequency - 2 Hertz, to be precise.16 wave crests in 8 seconds is the same as 2 per second. 2 is the frequency - 2 Hertz, to be precise.16 wave crests in 8 seconds is the same as 2 per second. 2 is the frequency - 2 Hertz, to be precise.16 wave crests in 8 seconds is the same as 2 per second. 2 is the frequency - 2 Hertz, to be precise.
Period = 1/frequency = 1/60 = 16 and 2/3 milliseconds
It depends on the units of 16. If it is 16 Hertz, then the frequency is 16 (per second).
Hertz are used for Units of Measurments for Frequency,caculated in terms of vibrations,or cycles per second. Example for a 16-bit stereo sound a frequency of 44,000 Hz is used
a longitudinal wave is a vibration like sound therfore a longditudinal wave is a sound. The pressure Vibrations of frequency between 16 - 20000 hertz, which propagates in medium we perceive as a sound. But longitudinal mechanical wave is not necessarily sound - for example wave along the spring, or density waves forming spiral structure of galaxies!
That means a sound or other wave that wiggles less than 16 times per second. (Less than 16 complete waves pass a fixed point each second.) 20 Hz is generally regarded as the lowest frequency that human ears can hear.
no
The speed is equal to the product of the frequency and the wavelength. First convert the wavelength to meters, so as to have compatible units.The speed of an electromagnetic wave in a vacuum is ALWAYS the same - around 300 million meters/second. If you get any result, something is wrong - unless the wave travels through some other medium, in which case its speed can be less than the speed of light in a vacuum.
1.7*10-7
Hz is frequency measured in cycles per second (hertz) MHz is 1000000 Hz = 1 megahertz so 16 MHz is 16,000,000 cycles per second
David Hertz was born on April 16, 1905, in Selma, Alabama, USA.
Very simple formula: speed of the wave = frequency x wavelength This is applicable for both mechanical waves such as sound and electromagnetic waves such as visible light. In case of sound the speed at room temperature would be almost 340 m/s. Hence wavelength = 340/320 = (17/16) m