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.
1000 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
1 billion Hz = 1 billion cycles / sec = 1 x 10^9 Hz = 1 x 10^9 cycles / sec
10 Hz 10 Hz
10 to the power of 9 (109) is one billion (US) or giga- so 109 Hz is 1 GHz.
The frequency is the reciprocal of the period. 1 / 10 Hz. = 0.1 seconds.The frequency is the reciprocal of the period. 1 / 10 Hz. = 0.1 seconds.The frequency is the reciprocal of the period. 1 / 10 Hz. = 0.1 seconds.The frequency is the reciprocal of the period. 1 / 10 Hz. = 0.1 seconds.
1000 Hz. The others are outside the range of human hearing. You can feel 10 Hz but not hear it. C. 1,000 Hz
10 to the 19th power. (+/-)-OR-10,000,000,000,000,000,000 Hz
To find the frequency, divide the number of wave crests (10) by the total time (15 seconds): Frequency = 10 wave crests / 15 seconds = 0.67 Hz or 2/3 Hz.
The frequency is 0.5 Hz. Since five waves pass in 10 seconds, you divide the number of waves by the time taken to find the frequency, which is five waves / 10 seconds = 0.5 Hz.
10 Hz is considered a very low pitch. The human hearing range typically starts around 20 Hz, so a sound at 10 Hz would be perceived as more of a vibration or rumble rather than a distinct pitch.
The frequency of the waves is 0.67 Hz. This is calculated by dividing the number of wave crests (10) by the time taken (15 seconds).
speed = distance over time = wavelength times frequency = 2 m times 10 hz = 20 m hz = 20 meters per second.
Ultraviolet waves have frequencies ranging from about 7.5 × 10^14 Hz to 3 × 10^16 Hz.
The frequency of the waves is 0.5 Hz (10 waves / 20 seconds). The time period is 2 seconds (1 / 0.5 Hz). The wavelength of the waves would depend on the speed of the waves in the medium they are traveling through.