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Is it possible to get more speed then light to the particle with accelerator?

No, according to the theory of relativity, it is impossible for any particle with mass to reach or exceed the speed of light. Accelerators can increase the speed of particles to high fractions of the speed of light, but they cannot exceed it.


What happens hen you heat a particle up so fast it travels at the speed of light?

It is not possible for a particle with mass to reach the speed of light, as it would require infinite energy. Additionally, at speeds approaching the speed of light, relativistic effects become significant, causing time dilation and length contraction.


What travels at light speed besides engines?

Particles that have no mass, such as photons, travel at the speed of light in a vacuum. These particles exhibit wave-particle duality and can behave both as waves and particles. Light, as a form of electromagnetic radiation, also travels at the speed of light.


Why was measuring the speed of light so important in deciding whether light was a wave or particle?

The speed of light was predicted, by the English physicist and mathematician James Maxwell, before it was measured. His work showed that electric and magnetic fields could combine to form electromagnetic waves, and his wave equation showed what their speed would be. Other physicists soon succeeded in creating electromagnetic waves in the laboratory, and detecting them all the way across the room. It was suggested that light might also be an electromagnetic wave. One way to settle the question would be to measure its speed, and see whether it was anywhere near the speed predicted by Maxwell's electromagnetic wave equations. All of that has nothing to do with the wave/particle duality of light. There's no decision to make, because light is both. If you design an experiment to look for wave behavior, light has it. And if you design an experiment to look for particle behavior, light has that too.


What is the nature of light particle?

Light is said to exhibit wave-particle duality because it is observed to behave as both a wave and a particle. When we shine light into narrow slits, the phenomenon of interference occurs and leads us to believe that light behaves as a wave. On the other hand, if light is shone on a metal, the spray of electrons indicates light behaves as a particle. This is the dual nature (wave and particle) behaviour being referred to. Hope this helps!

Related Questions

Is it possible to get more speed then light to the particle with accelerator?

No, according to the theory of relativity, it is impossible for any particle with mass to reach or exceed the speed of light. Accelerators can increase the speed of particles to high fractions of the speed of light, but they cannot exceed it.


Which are the non relativistic particles?

A non-relativistic particle is any particle not traveling at a speed close to the speed of light. This is not a property of particular type of particle; any particle may in general travel at any speed (below the speed of light). An exception are particles which are massless such as photons and gluons, these MUST travel at the speed of light.


How does particle acquire speed such as the speed of light?

Photons begin their existence travelling at the speed of light, they do not "acquire" this speed.


What happens hen you heat a particle up so fast it travels at the speed of light?

It is not possible for a particle with mass to reach the speed of light, as it would require infinite energy. Additionally, at speeds approaching the speed of light, relativistic effects become significant, causing time dilation and length contraction.


What does the term photon refer to?

A photon is a fundamental particle of light that carries electromagnetic energy and behaves as both a particle and a wave. It has no mass and travels at the speed of light. Photons are the basic unit of all electromagnetic radiation, including visible light, radio waves, and X-rays.


How long it takes for a particle from the moon to hit earth?

Well, if it is a particle of light (a photon) it takes about a second and a half. If it is any other particle, one that does not move at the speed of light, then you have to define a speed for it.


What is the approximate speed of a gamma particle?

The speed of a gamma particle is approximately the speed of light, which is around 299,792 kilometers per second in a vacuum.


What is the relationship between the speed of light (c), the energy (e), and the momentum (p) of a particle in the context of physics?

In physics, the relationship between the speed of light (c), energy (E), and momentum (p) of a particle is described by the equation E pc, where E is the energy of the particle, p is its momentum, and c is the speed of light. This equation shows that the energy of a particle is directly proportional to its momentum and the speed of light.


How photon differ from an inertial particle?

In a vacuum, a photon can ONLY move at the speed of light. A regular particle can ONLY move at speeds less than the speed of light.


What travels at light speed besides engines?

Particles that have no mass, such as photons, travel at the speed of light in a vacuum. These particles exhibit wave-particle duality and can behave both as waves and particles. Light, as a form of electromagnetic radiation, also travels at the speed of light.


Why was measuring the speed of light so important in deciding whether light was a wave or particle?

The speed of light was predicted, by the English physicist and mathematician James Maxwell, before it was measured. His work showed that electric and magnetic fields could combine to form electromagnetic waves, and his wave equation showed what their speed would be. Other physicists soon succeeded in creating electromagnetic waves in the laboratory, and detecting them all the way across the room. It was suggested that light might also be an electromagnetic wave. One way to settle the question would be to measure its speed, and see whether it was anywhere near the speed predicted by Maxwell's electromagnetic wave equations. All of that has nothing to do with the wave/particle duality of light. There's no decision to make, because light is both. If you design an experiment to look for wave behavior, light has it. And if you design an experiment to look for particle behavior, light has that too.


What is the nature of light particle?

Light is said to exhibit wave-particle duality because it is observed to behave as both a wave and a particle. When we shine light into narrow slits, the phenomenon of interference occurs and leads us to believe that light behaves as a wave. On the other hand, if light is shone on a metal, the spray of electrons indicates light behaves as a particle. This is the dual nature (wave and particle) behaviour being referred to. Hope this helps!