If you're referring to an electromagnetic wave, then its speed is 3 x 108 meters per second,
and its wavelength is
(3 x 108) / (99.3 x 106) = 3.021 meters(rounded)
To determine the number of wavelengths per second for a radio frequency on the FM band of 99.5 megahertz (MHz), we can use the formula: Wavelength = c/f Where: c= is the speed of light in a vacuum (approximately 3* 10^8 meters per second), f= is the frequency of the radio wave in hertz (Hz). First, we need to convert the frequency from megahertz (MHz) to hertz (Hz). Since 1 MHz = 10^6 Hz, the frequency in hertz is: f = 99.5MHz10^6 Hz/MHz = 99.510^6 Hz Now, we can calculate the wavelength: Wavelength = 310^8m/s/99.510^6 Hz Wavelength = 3/99.5 m Wavelength approx 3.02 meters So, for a radio frequency on the FM band of 99.5 megahertz, there are approximately 3.02 meters per wavelength. To find the number of wavelengths per second, we can use the reciprocal of the wavelength: Number of wavelengths per second = 1/Wavelength Number of wavelengths per second = 1/3.02 m Number of wavelengths per second approx 0.331 wavelengths/second Therefore, a radio frequency on the FM band of 99.5 megahertz has approximately 0.331 wavelengths per second.
100 MHz, and the 'hint' doesn't help you find this answer at all.It only tells you how to write it once you find it.
You multiply it by 1000.Would you believe megaHertz, to Hertz, multiply by 1000 000.
MHz stands for megahertz.
It is easier to say than mega-megahertz.
150 megahertz = 1.998616387 metres
Wavelength = speed/frequency = 300,000,000/100,000,000 = 3 meters
I'm going to assume that you're talking about the two familiar types of identificationof radio stations ... their frequency stated in megahertz, and their wavelength statedin meters. (If that's not what you're talking about, then the question is absurd.)The relationship may be a bit more complicated than what you're expecting:Wavelength (in meters) = 300 / frequency (in megahertz)Frequency (in megahertz) = 300 / wavelength (in meters)
None. Megahertz (MhZ) is a measure of frequency/wavelength and gigabyte (GB) is a measure of capacity. Perhaps you were wanting to ask how many megabytes are in a gigabyte? That answer is 1000.
3.0 M.
Wavelength = Speed of light/frequency Wavelength= 300'000'000/104'900'000 (FM 104.9 is frequency modulation 104.9 MHz) Wavelength=2.86 meters
300 meters = 1000 kHz. Wavelength in meters / 300 = frequency in megahertz * 1000 = frequency in kilohertz.
The wavelength of an electromagnetic wave is its frequency divided into the speed of light which, for general purposes, is usually reckoned to be 3.0 x 10^8 meters per second. For example, at 100 megahertz, the wavelength equals 3 meters because: 300,000,000 / 100,000,000 = 3
1.7 megahertz is bigger than 108 megahertz
Megahertz or megahertzes is the plural of megahertz. Both are acceptable
To determine the number of wavelengths per second for a radio frequency on the FM band of 99.5 megahertz (MHz), we can use the formula: Wavelength = c/f Where: c= is the speed of light in a vacuum (approximately 3* 10^8 meters per second), f= is the frequency of the radio wave in hertz (Hz). First, we need to convert the frequency from megahertz (MHz) to hertz (Hz). Since 1 MHz = 10^6 Hz, the frequency in hertz is: f = 99.5MHz10^6 Hz/MHz = 99.510^6 Hz Now, we can calculate the wavelength: Wavelength = 310^8m/s/99.510^6 Hz Wavelength = 3/99.5 m Wavelength approx 3.02 meters So, for a radio frequency on the FM band of 99.5 megahertz, there are approximately 3.02 meters per wavelength. To find the number of wavelengths per second, we can use the reciprocal of the wavelength: Number of wavelengths per second = 1/Wavelength Number of wavelengths per second = 1/3.02 m Number of wavelengths per second approx 0.331 wavelengths/second Therefore, a radio frequency on the FM band of 99.5 megahertz has approximately 0.331 wavelengths per second.
A frequency of 600000000MHz is better expressed as 600THz (TeraHertz). It has a wavelength of 500 nm (nanometres) which places it in the visible spectrum. This particular wavelength is somewhere in the green. Green light is from 495 to 570 nm.