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Q: When a particular mode is excited in a wave guide there appears an extra electronic component in direction of propagation the resulting mode is?

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there is a variable component of motion in the direction at right angles to the direction of propagation of the wave.acceleration is directly proportional to displacement from the direction of propagation of the wave, andthe direction of acceleration is opposite to that of the displacement.

The resultant vector describes the complete vector, magnitude and direction; while the component vector describes a single component of a vector, like the x-component. If the resultant vector has only one component, the resultant and the component are the same and there is no difference.t

A crosswind is any wind that is not in the same direction as travel. The crosswind component is perpendicular to the direction of travel ( 90 degrees). Mathematically, the crosswind component is the speed times the sine of the angle relative to the direction of travel. For example if a plane travels NORTH and there is a crosswind from the EAST ( 90 degrees) at 20 mph the crosswind component is 20 mph ( 20 sin90 = 20) For another example if a plane travels NORTH and there is a crosswind from the NORTHEAST ( 45 degrees) at 20 mph the crosswind component is 14.1mph ( 20 sin45 = 14.1)

The absolute value of the distance "crest to trough" perpendicular to the direction of propagation of the motion.

Vectors involve a direction component. So while the magnitudes may be the same, the direction won't be.

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there is a variable component of motion in the direction at right angles to the direction of propagation of the wave.acceleration is directly proportional to displacement from the direction of propagation of the wave, andthe direction of acceleration is opposite to that of the displacement.

No. It has. Since transverse electric mode has it's wave propagating in the Z direction, and has magnetic field existing in the same direction with NO electric field... Likewise, transverse magnetic mode has it's wave propagating in the Z direction and has electric field existing in the same direction with NO magnetic field.

diode it conducts when it is forward bised in reverse bias there is breakdown

Well, it's often referred to as the direction of propagation of the wave.

TEM TE modes (Transverse Electric) have no electric field in the direction of propagation. * TM modes (Transverse Magnetic) have no magnetic field in the direction of propagation. * TEM modes (Transverse ElectroMagnetic) have no electric nor magnetic field in the direction of propagation. * Hybrid modes are those which have both electric and magnetic field components in the direction of propagation

In a transverse wave the particle displacement is perpendicular to the direction of wave propagation (at right angles). In a longitudinal wave the particle displacement is parallel to the direction of wave propagation.

If the particles of the material medium vibrated in a perpendicular direction to the direction of propagation of the wave then it is said to be TRANSVERSE If the particles vibrate parallel to the direction of propagation then it will be longitudinal

They vibrate in a direction perpendicular to the direction of propagation of the wave.

Sound molecules traveling through air is an example of a longitudinal wave. It moves parallel to the direction of wave propagation.

Transverse waves oscillate perpendicular to the direction of energy propagation. Think of one wave by itself. Which direction is it propagating? Some direction parallel to the surface of the water. Now think of one particular piece of water that the wave passes through. It's motion goes upwards and downwards, which is perpendicular from the surface of the water, therefore transverse. Waves oscillating parallel to the direction of energy propagation are called longitudinal.

Well, it's often referred to as the direction of propagation of the wave.

Well, it's often referred to as the direction of propagation of the wave.