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How fast will the charge be moving when it reaches an infinite distance from the two charges?
The charge will be moving at a constant speed when it reaches an infinite distance from the two charges.
What happens if a source is moving toward you at a high rate of speed?
If a source is moving toward you at a high rate of speed, you would perceive an increase in its frequency, resulting in a higher pitch (Doppler effect). This is commonly experienced with emergency vehicles approaching with sirens on.
What happens if the source of a sound is toward you at a high rate of speed?
If the source of a sound is moving towards you, then the pitch of the soundyou hear is higher than the pitch of sound that the source is actually emitting.The rate of speed doesn't matter.BTW ... this also happens if you are moving toward the source.
Would someone walking toward the back the train have greater or lesser speed relative to yo?
Someone walking toward the back of the train would have a greater speed relative to you if you are stationary inside the train. This is because their speed would be the combination of their walking speed and the speed of the train moving forward.
If you studied the light from the stars using a spectroscope and found that there was no blue shift what would that mean?
It would mean that the stars are not moving toward you.They could still be moving at appreciable speed across your line of vision,but just not toward you.
How does the speed of light in the fiber compare with the speed of light in the outer covering?
The speed of light in the fibre is greater. As a result, light moving toward the outer covering is refracted back towards the core.
Does Looking at the ground beside a moving vehicle helps you judge its proximity?
Yes. when you look at the tires of a vehicle (we call "ground viewing") you can tell the speed and if the vehicle is moving toward you.
What two objects with the same velocity must be moving the same?
They would be traveling at the same speed. Two objects moving with the same velocity must be moving in the same direction and at the same speed. The reason for this is because velocity is speed in a specified direction. Another way to say that is to say that velocity is speed with a direction vector. It is a physical quantity with magnitude and direction. Two objects moving with the same speed could be moving toward a head-on collision. Or they could be moving along convergent, divergent or skewed paths. Not so with two objects that have identical velocities. They are moving on the same or on parallel courses, and they are moving at the same speed.
What is mass of a particle when it moves with velocity of light?
Fasten your seat belt . . .-- If the particle has any mass when it's not moving, then that mass becomes greaterthe faster the particle moves.-- If the particle could be pushed to the speed of light, its mass would be infinite at that speed.-- But in order to make the particle move faster, you have to add energy to it. The more mass it has,the more energy you have to give it in order to make it move faster.-- Since its mass grows as it moves faster, the amount of energy it takes to make itgo faster also grows.-- If its mass is growing toward infinity, then the amount of energy you need to make itgo faster is also growing toward infinity.-- Since the mass would be infinite at the speed of light, you would need an infinite amountof energy to boost it to that speed.-- You don't have enough energy available to do the job, and you can''t get it.
What happens if you move at the speed of light?
You would have infinite mass and infinite length. From your perspective, you would get to your destination in zero time.If you have finite mass now, it would require infinite energy to attain the speed of light, so this can never happen.
If a train were to move with the speed of light what would be its length?
According to Einstein's theory of relativity, an object cannot travel at the speed of light due to infinite energy required. Therefore, the length of a train moving at the speed of light is an undefined concept.
Could any part of the speed line ever become perfectly vertical?
Assuming that the question refers to a speed-time line, the answer is no. It would require the object to be travelling at infinite speed and, to be accelerated to an infinite speed would require an infinite amount of energy.
