Taking the speed of light to be 299,792,458 m/s
299,792,458 m/s / 2400,000,000 hertz = 0.124913524 meters
The frequency at which a microwave oven operates, about 2,450 MHz, has a wavelength of about 12 cm.
10 centimeters or less If you mean "microwave oven", those operate at the frequency of 2.45 GHz, where the wavelength is 12.24 centimeters.
Microwave radiation is used in a microwave oven. Microwaves are a form of electromagnetic radiation - radio waves - and the oven operates right at about 2.45 gigahertz. That's 2,450,000,000 hertz or cycles per second, if that makes more sense. This non-ionizing radiation works directly on molecules that have an electric dipole, and it will cause them to try and align themselves with the incoming radiation. This is called dielectric heating, and the increased energy appears as increased molecular motion, which is expressed as heat.
"Microwaves" are radio waves ... those with wavelengths of 10 centimeters or less.The wavelengths of the signals used for point-to-point microwave communicationare shorter than the wavelengths of the signals used to broadcast radio and TV tohousehold and automotive receivers, and also longer than the wavelength of thesignals to the GPS receiver in your car.Microwaves are shorter than the wavelengths used to operate your cellphone.The microwave range of frequencies (wavelengths) is used for the signals that bring900 channels of satellite TV directly to the little dish on the corner of your house.Here's an interesting factoid: Technically, the box in your kitchen that heats theleftover meatloaf in 13 seconds is not a "microwave" oven. "Microwave" officiallyrefers to frequencies of 3 GHz and higher (wavelength 10 cm and less). The handykitchen appliance operates at the frequency assigned to it, which in the USA is2.450 GHz (12.24 cm).
Centrigugal force operates on the tires to hold them together and has nothing to do with acceleration or deceleration.
The frequency at which a microwave oven operates, about 2,450 MHz, has a wavelength of about 12 cm.
10 centimeters or less If you mean "microwave oven", those operate at the frequency of 2.45 GHz, where the wavelength is 12.24 centimeters.
Wavelength = (speed) / (frequency)Speed of light/radio/microwave = 3 x 108 meters per secondWavelength in the microwave oven = (3 x 108) / (2.4 x 109) =0.125 meter12.5 centimeters125 millimeters125,000,000 nanometersabout 4.9 inches
In our Universe, EM radiation can only come in discrete chunks called "photons." The energy of each individual photon depends on the frequency of the EM radiation. Frequency depends on wavelength (or vice-versa): the shorter the wavelength, the higher the frequency. Thus, short wavelength photons have more energy. That's just how our Universe operates, whether or not we like it.
Microwave radiation is used in a microwave oven. Microwaves are a form of electromagnetic radiation - radio waves - and the oven operates right at about 2.45 gigahertz. That's 2,450,000,000 hertz or cycles per second, if that makes more sense. This non-ionizing radiation works directly on molecules that have an electric dipole, and it will cause them to try and align themselves with the incoming radiation. This is called dielectric heating, and the increased energy appears as increased molecular motion, which is expressed as heat.
Microwave oven
"Microwaves" are radio waves ... those with wavelengths of 10 centimeters or less.The wavelengths of the signals used for point-to-point microwave communicationare shorter than the wavelengths of the signals used to broadcast radio and TV tohousehold and automotive receivers, and also longer than the wavelength of thesignals to the GPS receiver in your car.Microwaves are shorter than the wavelengths used to operate your cellphone.The microwave range of frequencies (wavelengths) is used for the signals that bring900 channels of satellite TV directly to the little dish on the corner of your house.Here's an interesting factoid: Technically, the box in your kitchen that heats theleftover meatloaf in 13 seconds is not a "microwave" oven. "Microwave" officiallyrefers to frequencies of 3 GHz and higher (wavelength 10 cm and less). The handykitchen appliance operates at the frequency assigned to it, which in the USA is2.450 GHz (12.24 cm).
The common, ubiquitous microwave oven operates in the "ISM" radio band of 2.45-2.5 GHz, corresponding to a wavelength of something like 12 centimeters. You could use somewhat longer or shorter wavelengths to cook food, but this is the frequency band dedicated to that service. The 2.5 GHz band was the desirable choice, because it is a wavelength efficiently absorbed by the moisture in the food. The shape and size of the 'cavity' in the microwave oven ... the box where you put the food to be cooked ... is closely related to the wavelength of the RF energy used, in order to assure that the RF energy stays in the box and gets absorbed into the food, and is not reflected back into the device that generates it.
Operates on a different wavelength. This helps it single itself out from other services.
That the appliance does not need a electrical transformer and uses the US standards for electricity off the grid.
Microwave is a radio wave.Depending on the country you're operating in and the standard to whichyour Wi-fi equipment operates, you'll be conducting radio communicationaround 2.4 GHz, or 3.6 GHz, or 4.9 to 5.8 GHz.(If you want to be super-technical about it, microwaves are radio waves withfrequencies above 3.0 GHz. This leads to the awkward fact that microwave ovens,operating around 2.46 GHz in the US, don't literally use microwave radiation.)
If they are travelling throught the same medium, then no. They are both types of electromagnetic waves and so they travel at the same speed (in a vacuum, that velocity is around 300,000,000 metres per second).