Hz is short for hertz. It is not a time, but a frequency. Time is measured in seconds, Hz is equivalent to 1/seconds. Therefore, you can't convert between time and frequency.
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∙ 10y ago1000 Hz. The others are outside the range of human hearing. You can feel 10 Hz but not hear it. C. 1,000 Hz
speed = distance over time = wavelength times frequency = 2 m times 10 hz = 20 m hz = 20 meters per second.
1/120 seconds!
I am a bit rusty so I will do this the long way. Get frequency first(Hz). Hz = (3.29 X 10^15 Hz) * Z^2 * (1/n final^2 - 1/n initial^2) ( Z =1 for hydrogen, so no problems there ) Hz = (3.29 X 10^15 Hz) * (1/2^2 - 1/6^2) Hz = 7.31 X 10^14 Hertz Wavelength = speed of light/Hertz 2.998 X 10^8 m/s/7.31 X 10^14 Hz = 4.10 X 10^-7 meters that is 410 nanometers The color would be violet
The relationship to be kept in mind is that the time period, which is the time take for one complete oscillation, is the reciprocal of frequency (the number of oscillations completed in one second). That is, T = 1/f where Period T, is measured in seconds Frequency f, is measured in Hertz. In your specific case, if f = 10 Hz, T = 0.1 s.
10 Hz 10 Hz
The period - the time for one full cycle - is the reciprocal of the frequency. If the frequency is in Hz, the time will be in seconds.From 0 to 180 degrees is one-half of a full cycle.
Yes
10 Hz, whereas 'Hz' (hertz) means "cycles per second."
10 to the power 7 Hz is 10 MHz, so that is HF (high frequency); this range of radio waves goes from 3 to 30 MHz.
An X-ray has a wavelength in the range of 10 to 0.01 nanometers. The frequency is in the range of 30 petahertz to 30 exahertz, that is 30×10^15 Hz to 30×10^18 Hz.
An X-ray has a wavelength in the range of 10 to 0.01 nanometers. The frequency is in the range of 30 petahertz to 30 exahertz, that is 30×10^15 Hz to 30×10^18 Hz.
4x 1015 Hz The electron lost 2.6 x 10-18 J of energy.
10 to the power 7 Hz is 10 MHz, so that is HF (high frequency); this range of radio waves goes from 3 to 30 MHz.
you take the wave length in meteres, and divide it by the time of travel in seconds. m/s=hz
Their hearing range is typically 10 Hz to 40,000 Hz. It just depends on the animals age and their location.
5.10 x 10^14 hz