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What is the phase relationship between oscillating electric and magnetic fields in an EM wave?

What is the phase relationship between oscillating electric and magnetic fields in an EM wave?

In EM waves the phase difference between electric and magnetic fields is 180 degree.

What is the direction of oscillating electric and magnetic fields to the propagation of waves?

Electromagnetic waves are transverse waves. That means the electric and magnetic fields change (oscillate) in a plane that is perpendicular to the direction of propagation of the wave.

What does an oscillating magnetic field do?

The magnetic field oscillating amplified thruster (MOA; often named as plasma engine by the media) is a versatile electrothermodynamic system, which is able to accelerate nearly every electrically charged gaseous medium (plasma application) to extremely high velocities, thereby generating a high energetic plasma jet in …

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How do electric fields oscillate?

The electric field in an electromagnetic wave vibrates with its vectorial force growing stronger and then weaker, pointing in one direction, and then in the other direction, alternating in a sinusoidal pattern (Figure 1). At the same frequency, the magnetic field oscillates perpendicular to the electric field.

What is the difference between an oscillating magnetic field and an oscillating electric field?

A steadily-changing magnetic field can induce a constant voltage, while an oscillating magnetic field can induce an oscillating voltage. Focus on these two facts: an oscillating electric field generates an oscillating magnetic field. an oscillating magnetic field generates an oscillating electric field.

What is the direction of the magnetic field in an electromagnetic wave?

The electric field of an electromagnetic wave points in the positive y direction. At the same time, the magnetic field of this wave points in the positive z direction.

Do magnetic fields oscillate?

Electric and magnetic fields oscillate together but perpendicular to each other and the electromagnetic wave moves in a direction perpendicular to both of the fields.

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How does magnetic flux affect the polarity of induced EMF?

When an emf is generated by a change in magnetic flux according to Faraday’s Law, the polarity of the induced emf is such that it produces a current whose magnetic field opposes the change which produces it. The induced magnetic field inside any loop of wire always acts to keep the magnetic flux in the loop constant.

What happens when a loop is moved parallel to a magnetic field?

When a loop is moved parallel to a uniform magnetic field, there is no change in the number of field lines passing through the loop and no induced current. What would happen if the loop was moved vertically?

When does a coil experience an induced current when magnetic field varies?

A coil experiences an induced current when the magnetic field passing through it varies. (a) When the magnet moves toward the coil the current is in one direction. (b) No current is induced while the magnet is held still.

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What is the polarity of induced electromagnet?

The polarity of the induced emf is such that it produces a current whose magnetic field opposes the change that produces it. The induced magnetic field inside any loop of wire always acts to keep the magnetic flux in the loop constant. This inherent behavior of generated magnetic fields is summarized in Lenz’s Law.