c = wavelength x frequency, where c = speed of light, which is 299,792,458m/s
Known: c and frequency
Unknown: wavelength
Wavelength = c/frequency = (299,792,458m/s)/(3,000,000/s) = 99.9m
It is in the radio region of the electromagnetic spectrum.
See the related link below.
The wavelength of ultrasound can be calculated using the formula: wavelength = speed of sound / frequency. Assuming the speed of sound in human tissue is about 1540 m/s, the wavelength of 3.5 MHz ultrasound would be approximately 0.44 mm.
Strictly speaking, if somebody just looked at the words in your question, the plain answer would be "You don't; these units measure different quantities."But I suspect that you're thinking about frequency and wavelength of radio stations, light, or x-rays. Maybe even sound waves, which also have frequency and wavelength. If that's what you're thinking about then the conversion is easy:(Wavelength) = (speed) divided by (frequency), and (frequency) = (speed) divided by (wavelength)Just remember that the speed and wavelength must both be in the same units to do the arithmetic.Examples:1). I'm a ham radio operator and I enjoy operating in the 10-meter amateur band. What frequency do I transmit when I do that ?The speed of light (and radio and all other electromagnetic radiation) is about 300 million meters per second.Frequency = speed / wavelength = 300,000,000 / 10 = 30,000,000 Hertz = 30 MEGA Hz2). I work with microwave radio equipment at operates at around 6 GHz (6 billion Hertz). What's the wavelength ?Wavelength = speed / frequency = 300,000,000 / 6,000,000,000 = 0.05 meters = 5 centimeters3). My sister teaches children to play the flute. When the flute plays a sustained 'A' note ... with frequency 440 Hz ... what is the wavelength of the sound in the room ?Speed of sound = roughly 1125 ft per second depending on temperature and other things.Wavelength = speed / frequency = 1125 / 440 = 2.56 feet
This is a typical math question about a wave.First you need to know the equation: c=fλ where f is frequency, c is the speed of light and λ (Greek letter lamda) is wavelength. Next, you rearrange the equation so it can solve for what you're looking for--in this case, its frequency f. Algebraically, you can obtain the equation f=c/λNow you can plug in the speed of light (2.99x108 meters per second) and the wavelength that is 1,000,000 meters or 1x106 meters. And solve. The answer should be 299 Hertz (or inverse seconds-- s-1)
The wavelength of a radiowave depends on its frequency. You take the speed of light and divide by the frequency, and you will get wavelength. For instance, a particular radiostation broadcasts at 97.5 MHz (WALK, Long Island, NY). Take the speed of light, 2.99x108 meters per second and divide by 9.75x107 cycles per second(1), and you get 3.07 meters per cycle. (1) I used cycles per second instead of hertz so that you could see dimensionally how the seconds cancel out.
The speed of any wave is the product of the frequency and the wavelength. Be sure to convert the nm to meters first (dividing by 1,000,000,000). - By the way, in a vacuum, all electromagnetic waves travel at the same speed, known as the speed of light - about 300 million meters/second. However, in other substances - such as air, or water - electromagnetic waves are slower.
It is the different types of waves in light. All waves travel at the same speed which is nearly 300 million m/s.Anyway:Radio Waves - longest wavelength, smallest frequencyMicrowavesInfraredVisible LightUltravioletX-RayGamma Rays - shortest wavelength, largest frequency
For any wave (not just light), the product of the wavelength and the frequency is equal to the speed of the wave. For light in a vaccum, the speed is constant (ca. 300 million m/s). - thus, as the frequency increases, the wavelength gets shorter.
The wavelength for a frequency of 1 million Hz is 300 meters. This can be calculated using the formula: wavelength = speed of light / frequency. In this case, the speed of light is approximately 300 million meters per second.
2.789m is the broadcast wavelength for the radio station 107.5 FM
The distance light takes to travel in a second (just less than 30000000metres).
To calculate the wavelength of a wave, you can use the formula: wavelength = speed of light / frequency. The speed of light is approximately 3.00 x 10^8 m/s. Plugging in the frequency of 45 Hz into the formula gives you a wavelength of about 6.67 million meters.
The wavelength corresponding to a frequency of 100 Hz can be calculated using the equation: wavelength = speed of light / frequency. For light in a vacuum, with a speed of approximately 3 x 10^8 m/s, the wavelength would be around 3 x 10^6 m or 3 million meters.
To determine the wavelength of the radio waves, we can use the formula: wavelength = speed of light / frequency. The speed of light is approximately 3 x 10^8 meters per second. Converting the frequency to hertz gives us 1.76 x 10^9 Hz. Plugging these values into the formula, we get a wavelength of approximately 0.17 meters or 17 centimeters.
Speed (of a wave) = frequency x wavelengthTherefore, you have to: * Convert the wavelength to meters. * Divide the speed of light - which is 300 million meters/second - by this wavelength. The answer will be in Hz.
I assume that a "solar signal" means light. Light moves at approximately 262 million meters per second in water, regardless of the frequency or wavelength of the light. Also, if light has a frequency of 1000 Hz, then it has a wavelength of 300 kilometers. The speed of light, c, is equal to the product of the frequency and the wavelength. In other words, c=f*w
The wavelength of a light wave with a frequency of 1,500,000 Hz can be calculated using the formula λ = c / f, where λ is the wavelength, c is the speed of light (approximately 3 x 10^8 m/s), and f is the frequency. Substituting these values into the formula gives a wavelength of 200 nm (nanometers).
The wavelength of ultrasound can be calculated using the formula: wavelength = speed of sound / frequency. For ultrasound in human tissue with a frequency of 3.5 million Hz, the speed of sound in tissue is around 1540 m/s. Therefore, the wavelength would be approximately 0.44 mm.