The amplitude in an electromagnetic wave is the maximum value of the electric or magnetic field at a given point in space. It represents the strength or intensity of the wave. A larger amplitude corresponds to a more intense wave.
Yes, electromagnetic waves have amplitude, which refers to the maximum value of the electric or magnetic field in the wave. The amplitude determines the intensity or strength of the wave.
The amplitude of a light wave can be determined by measuring the maximum displacement of the electric or magnetic field from its equilibrium position as the wave oscillates. This maximum displacement corresponds to the maximum intensity of the light wave. The higher the amplitude, the more intense the light wave is.
Wave is of two types. Mechanical wave and electro magnetic wave In case of mechanical wave, energy is the energy of the particle which performs SHM E = 2 m pi2 a2 f2 Here m-mass of the particle in the medium, a=amplitude of vibration, f - frequency of vibration. BUt in case of electromagnetic wave energy is the energy of the photon which is given as E = h f h=Planck's constant and f - frequency of radiation.
The amplitude of an electromagnetic wave is measured by the maximum displacement of the electric or magnetic fields from their equilibrium position. It represents the strength or intensity of the wave and is typically measured in volts per meter for electric fields and teslas for magnetic fields.
wellllll energy of the wave controls the amplitude of a wave
Distortion and static, as radio waves (assuming that's what you are talking about) are electro-magnetic by definition.
gamma rays
electro-magnetic wave
Yes, electromagnetic waves have amplitude, which refers to the maximum value of the electric or magnetic field in the wave. The amplitude determines the intensity or strength of the wave.
The amplitude of a light wave can be determined by measuring the maximum displacement of the electric or magnetic field from its equilibrium position as the wave oscillates. This maximum displacement corresponds to the maximum intensity of the light wave. The higher the amplitude, the more intense the light wave is.
Light, being a vibrating electro-magnetic wave, has a frequency of vibration.
Wave is of two types. Mechanical wave and electro magnetic wave In case of mechanical wave, energy is the energy of the particle which performs SHM E = 2 m pi2 a2 f2 Here m-mass of the particle in the medium, a=amplitude of vibration, f - frequency of vibration. BUt in case of electromagnetic wave energy is the energy of the photon which is given as E = h f h=Planck's constant and f - frequency of radiation.
Electricity and magnetism are closely related. When you pass a current through a conductor, a magnetic field is produced. In continuously changing current, a disturbance is caused in the form of a wave, in both the magnetic field and electrostatic field. Hence electro-magnetic. Examples of this wave extends across a whole spectrum, including radio waves, x-rays and light.
Light, being a vibrating electro-magnetic wave, has a frequency of vibration.
Radio waves as low as 10kHz are used for communication with submarines.
That is the speed of light. (or any other wave in the electro-magnetic spectrum).
The amplitude of an electromagnetic wave is measured by the maximum displacement of the electric or magnetic fields from their equilibrium position. It represents the strength or intensity of the wave and is typically measured in volts per meter for electric fields and teslas for magnetic fields.