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need to describe in five ways how electronic waves differ each other
wavelength & frequency (but remember frequency is only a derivative of wavelength for any given propagation velocity) 'Amplitude' also varies (bigger waves!)
Radio waves help people communicate with each other.
Electromagnetic waves are classified according to their wavelength and frequency and this classification is called electromagnetic spectrum.
Yes, both electric and magnetic fields make up electromagnetic waves. We know that electromagnetic waves (like light) have both an electric and a magnetic component. Both of these components are waves, and they move (propagate) at right angles to each other, and in phase.
need to describe in five ways how electronic waves differ each other
There are two main types of EM waves. Magnetic waves and Electronic waves. They exist at orthogonal relationships with M waves and E waves at 90 degrees to each other.
wavelength & frequency (but remember frequency is only a derivative of wavelength for any given propagation velocity) 'Amplitude' also varies (bigger waves!)
Electromagnetic radiation is also known as electromagnetic waves. That are produced by the motion of electrically charged particles. Electromagnetic energy is a term used to describe all the different kinds of energies.
When you listen to the radio, watch TV, or cook dinner in a microwave oven, you are using electromagnetic waves. Radio waves, television waves, and microwaves are all types of electromagnetic waves. They differ from each other in wavelength. Wavelength is the distance between one wave crest to the next. For more info, click the link below.
by electric and magnetic to move each other
Frequency. Electromagnetic waves are just magnetic waves that are turning into electric waves. The faster they turn in to each other, the more energy and high up on the spectrum they are.
Radio waves help people communicate with each other.
The different types of electromagnetic waves are all basically the same phenomenon; they differ in the frequency, and hence (since they all travel at the same speed, at least in a vacuum), also in the wavelength.The energy per photon (the particles that correspond to the wave) is directly proportional to the frequency.
Electromagnetic waves are classified according to their wavelength and frequency and this classification is called electromagnetic spectrum.
We understand that electromagnetic waves have both an electric and a magnetic component. Each component is a wave, and each wave is perpendicular to the other and is in phase. perpendicular to the direction of the wave
Electromagnetic waves