Assuming a propogation speed of 3x108 m/s (approximate speed of light), a frequency of 106.5 MHz would have a wavelength of about 2.8 m.
The wavelength of a frequency is the propagation speed divided by the frequency. A wave of 146 MHz, with a propagation speed of 3x108 m/s (speed of light), has a wavelength of 3x108 divided by 146x106, or about 2 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
Wavelength = (speed) / (frequency) = (3 x 108) / (249 x 106) = 1.205 meters (rounded)
Since the 8085 has a maximum clock frequency of 6 MHz, increasing the crystal frequency from 5 MHz to 20 MHz, a corresponding clock frequency change of 2.5 MHz to 10 MHz, the chip would malfunction.
Wavelength = (speed of light) divided by (frequency) Wavelength = (300,000,000 meters/second) divided by (frequency) If the frequency is 1 MHz, then wavelength = (300,000,000 / 1,000,000) = 300 meters = 984 feet A smart engineer calculated the magic number 984 so that you could do all your arithmetic in megahertz and feet, instead of hertz and meters.
The station with 107.1 MHz would have the longer wavelength.
Wavelength at 2 MHz = 149.896 meters Wavelength at 56 Hz = 5,353.437 meters Lower frequency --> longer wavelength. Higher frequency --> shorter wavelength When you multiply (frequency) times (wavelength), the result is always the same number.
Wavelength is calculated in MHz not Hz, and the formula is Wavelength = 300 / MHz
The wavelength of a 99.0 MHz signal is about 9.94 feet.
56 Hz.
Frequency = speed/wavelength = 300,000,000/3 = 100 MHz.
Frequency = speed/wavelength = 300,000,000/150 = 2 MHz
"Meters" is not frequency. It's wavelength. If you know the wavelength in meters, divide 300 by it, and the result is the frequency in MHz. If you know the frequency in MHz, divide 300 by it, and the result is the wavelength in meters.
For 90.7 MHz: λ = about 10.84 feet.
Frequency = speed/wavelength = 300,000,000/3 = 100 MHz.
For horizontal antennas operating below 30 MHz the optimum height is half a wavelength, so the height in metres would be 149.9/Frequency in MHz.
The wavelength of a frequency is the propagation speed divided by the frequency. A wave of 146 MHz, with a propagation speed of 3x108 m/s (speed of light), has a wavelength of 3x108 divided by 146x106, or about 2 m.