Period = 1/frequency = 1/2 x 106 = 1/2 microsecond
The answer is cleverly embedded in the question. If it takes one second to make a complete vibration, then that's the period.
depends on what type of vibration the vibrations that are counted in atomic closcks are multiple billions of times a second and the vibration of the earth or RESONATION is 6hertz im pretty shure and the vibration of the movement of the earth is one pulse every year a rediculusly long wavelength be more spesific
This is known as the frequency of the wave.
The frequency of a pendulum is 1 divided by (the number of seconds to make one complete swing)
Frequency is 1 divided by the time required for each cycle.
( 1 ) divided by (the frequency of the vibrations).
its the time taken for one complete vibration.
The velocity=distance/time ,, Suppose that the distance covered is one complete vibration therefore the distance is called wavelength and the time is called periodic time then velocity=wavelength/periodic time also frequency= 1/periodic time therefore the velocity=wavelength*frequency
First, you need a frequency table.
Wavelength
The answer is cleverly embedded in the question. If it takes one second to make a complete vibration, then that's the period.
depends on what type of vibration the vibrations that are counted in atomic closcks are multiple billions of times a second and the vibration of the earth or RESONATION is 6hertz im pretty shure and the vibration of the movement of the earth is one pulse every year a rediculusly long wavelength be more spesific
This is known as the frequency of the wave.
the length of a wave generated by a complete vibration or time period
the length of a wave generated by a complete vibration or time period
If you don't know you are dumb! ~i
The frequency of a pendulum is 1 divided by (the number of seconds to make one complete swing)