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What are two types of waves and What can they travel through?
Two types of waves are mechanical waves and electromagnetic waves. Mechanical waves require a medium (solid, liquid, or gas) to travel through, while electromagnetic waves can travel through a vacuum, such as outer space.
How do the electric and magnetic field of an electromagnetic wave regenerate each other?
In an electromagnetic wave, the changing electric field creates a magnetic field, and the changing magnetic field in turn regenerates the electric field. This process continues as the wave propagates through space, leading to the self-sustaining nature of electromagnetic waves.
Waves made by vibrating charges that can travEl without a medium are called?
Electromagnetic waves.
What is the reason for ultrasonic waves not being in the form of electromagnetic waves?
Ultrasonic waves are high frequency sonic waves. They're sound, which is mechanical energy. Electromagnetic waves are waves of electromagnetic energy, like radio waves or light. Mechanical energy is different from electromagnetic energy, hence the reason for ultrasonic waves not taking the form of electromagnetic waves.
Which is not a type of electromagnetic wave?
Sound waves are not a type of electromagnetic wave. Sound waves are mechanical vibrations that require a medium, such as air or water, to propagate, whereas electromagnetic waves can travel through a vacuum.
What is the nature of an current?
is a flow of electromagnetic waves that have a potential
What do electromagnetic waves not transfer?
There are lots of things they don't transfer.
What is the energy transferred as em waves?
Electromagnetic waves transfer energy through the oscillation of electric and magnetic fields. The energy carried by electromagnetic waves is proportional to their frequency, with higher frequencies carrying more energy. This energy transfer allows electromagnetic waves to propagate through space and interact with matter.
How do you produce electricity from electromagnetic waves?
Current flows through any conductor when electromagnetic waves fly past it. That's how a radio antenna works.
What does electromagnetic radiation carry?
Electromagnetic radiation carries energy in the form of waves that consist of oscillating electric and magnetic fields. The amount of energy carried by electromagnetic radiation depends on the frequency of the waves - with higher frequencies carrying more energy.
What is the effect of current on waves?
An electric current can induce electromagnetic waves when it flows through a conductor. This can result in the generation of radio waves, microwaves, or light waves depending on the frequency and intensity of the current. The relationship between current and waves is described by Maxwell's equations in electromagnetism.
Why are electromagnetic waves called EM waves?
Electromagnetic waves are called EM waves because they are composed of oscillating electric and magnetic fields. These fields propagate through space, carrying energy with them. The combination of electric and magnetic fields gives rise to the term "electromagnetic."
Which type of electromagnetic waves have the most energy?
Gamma rays have the most energy among all electromagnetic waves. They have the shortest wavelength and highest frequency, carrying a significant amount of energy.
What are two types of waves and What can they travel through?
Two types of waves are mechanical waves and electromagnetic waves. Mechanical waves require a medium (solid, liquid, or gas) to travel through, while electromagnetic waves can travel through a vacuum, such as outer space.
Which types of these waves is not a mechanical wave?
Examples of mechanical waves are waves in the ocean and sound waves from devices like mouths, trombones, and radios. Electromagnetic waves like sunshine and X-rays are not mechanical waves because matter is not doing the waving.
How are electromagnetic waves different to radio waves?
Radio waves ARE electromagnetic waves.
How are electromagnetic waves transfered?
Electromagnetic waves are transferred by electromagnetic radiation.
