Interesting

Can two photons cancel each other?

Can two photons cancel each other?

Since light itself does not have electric charge, one photon cannot directly interact with another photon. Instead, they just pass right through each other without being affected. Because they are bosons and because they carry no electric charge, one photon cannot directly bounce off another photon.

What happens when two photons collide?

Photons don’t directly interact with each other, but if one photon pair produced an e+/e- then the second photon could interact with that pair. The interaction has to conserve the energy of the two photons and conserve their momentum as well of course.

Do particles bounce off each other?

Liquid particles have enough energy to move freely about one another, but not enough energy to overcome the attraction to the other particles. They are bound together in very movable chains, bouncing into each other a lot.

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Can photons scatter photons?

In classical electrodynamics, photons cannot interact with each other because they have no charge. At the same time, however, quantum electrodynamics predicts that two photons can scatter off each other by exchanging virtual charged fermions or W bosons.

Can mirrors reflect photons?

Photons that strike the mirror head-on are reflected squarely back, and those hitting at an angle are reflected at the same angle in the other direction, forming a V-shaped path. This is the law of reflection.

What happens when two photons collide with each other?

Two photon may combine and create a pair of electron-positron or other particles which eventually annihilate each other releasing two photons, thus the net effect might be that the initial photons have scattered from each other, or in simple tern=ms, they have “collided”. Originally Answered: What happens if two photons collide each other?

Can two photons of different energies pass through each other?

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The interaction has to conserve the energy of the two photons and conserve their momentum as well of course. But yes they could (and most probably depending on their energy) just pass right “through” each other.

Can light bounce off of each other?

Light-light scattering is possible through an indirect mechanism, but is extremely rare. Public Domain Image, source: Christopher S. Baird. Yes, one bit of light can bounce off another bit of light, but not directly, and the effect is very rare. Light is made out of small quantum objects called photons.

How do photons interact with charged particles?

We also have charged particles, and “charged” means “interacts with photons”. Therefore, photons push charged particles around. That means that photons can interact indirectly: first photon pushes particle, particle moves somewhere new, particle interacts with second photon.