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If an electron vibrates up and down 1000 times each second it generates an electromagnetic wave having a?
Frequency of 1000 Hz. (Wavelength of 300 kilometers.)
A wave having a frequency of 1000 hertz vibrates at?
1000 Hz means 1000 vibrations per second.1000 Hz means 1000 vibrations per second.1000 Hz means 1000 vibrations per second.1000 Hz means 1000 vibrations per second.
What is the wavelength of 350 Hz?
The wavelength is (the speed of the wave) / (350) .
What is the wavelength of 0.5 Hz?
The wavelength of a wave is dependent on its speed and frequency. To calculate the wavelength of a wave with a frequency of 0.5 Hz, you need additional information such as the speed of the wave. Without knowing the speed, it is not possible to determine the wavelength.
What is the wavelength of a 440 Hz wave in air?
The wavelength of a 440 Hz wave in air can be calculated using the formula: wavelength = speed of sound in air / frequency. The speed of sound in air at room temperature is approximately 343 m/s. Therefore, the wavelength of a 440 Hz wave in air is approximately 0.780 meters.
If an electron vibrates up and down 1000 times each second it generates an electromagnetic wave having a?
Frequency of 1000 Hz. (Wavelength of 300 kilometers.)
A wave having a frequency of 1000 hertz vibrates at?
1000 Hz means 1000 vibrations per second.1000 Hz means 1000 vibrations per second.1000 Hz means 1000 vibrations per second.1000 Hz means 1000 vibrations per second.
What is the wavelength of 350 Hz?
The wavelength is (the speed of the wave) / (350) .
What is the wavelength of 0.5 Hz?
The wavelength of a wave is dependent on its speed and frequency. To calculate the wavelength of a wave with a frequency of 0.5 Hz, you need additional information such as the speed of the wave. Without knowing the speed, it is not possible to determine the wavelength.
What is the wavelength of a 440 Hz wave in air?
The wavelength of a 440 Hz wave in air can be calculated using the formula: wavelength = speed of sound in air / frequency. The speed of sound in air at room temperature is approximately 343 m/s. Therefore, the wavelength of a 440 Hz wave in air is approximately 0.780 meters.
What is the wavelength of a water wave that has a frequency of 2.50 Hz and a speed of 4.0 ms?
To find the wavelength of the water wave, you can use the formula: wavelength = speed / frequency. Plugging in the values given, you get: wavelength = 4.0 m/s / 2.50 Hz = 1.6 meters. Therefore, the wavelength of the water wave is 1.6 meters.
What is the speed of a wave with a wavelength of cm and a frequency of KHz?
The speed of a wave is equal to the product of wavelength x frequency. Just convert everything to standard units (wavelength to meters, frequency to hertz), multiply both, and you'll get the result, also in standard units (meters / second).
What is the wavelength of a wave that is traveling 56 m's at a frequency of 48 Hz?
To find the wavelength, you can use the formula: wavelength = speed of wave / frequency. Given that the wave is traveling at 56 m/s and has a frequency of 48 Hz, you can calculate the wavelength by dividing the speed (56 m/s) by the frequency (48 Hz), which gives you a wavelength of approximately 1.17 meters.
A certain wave has a wavelength of 35 meters and a frequency of 4.0 Hz What is the speed of the wave?
The speed of a wave is calculated by multiplying its wavelength by its frequency. In this case, the speed of the wave is 140 m/s (35 m * 4.0 Hz = 140 m/s).
What is the waves period of 1000hz?
The wavelength period of a wave with a frequency of 1000 Hz is 0.001 seconds. This means that the wave completes one full cycle every 0.001 seconds.
What is the wavelength of a wave has a frequency of 60 Hz and a speed of 45ms?
The wavelength of a wave can be calculated using the formula: wavelength = speed / frequency. Given the frequency of 60 Hz and speed of 45 m/s, the wavelength would be 0.75 meters.
How do the wavelength of each of these Sound waves compare An instrument plays a pitch of 266 Hz. Another identical instrument plays a pitch of 400 Hz.?
The wavelength of a sound wave is inversely related to its frequency. Since the speed of sound in air is approximately constant, a lower frequency (like 266 Hz) corresponds to a longer wavelength, while a higher frequency (400 Hz) has a shorter wavelength. Specifically, the wavelength of the 266 Hz sound wave will be longer than that of the 400 Hz sound wave.
