A proton and anti-proton with rest energy of, E0 = 931 MeV/c2 was traveling in the opposite direction at a speed of, V = 0.9995*c (where c is a speed of light equal to 3.0 * 108 m/s). After traveling in a vacuum chamber, the two particles collide head-on to produce a new massive particle in the center of the chamber. What is the new Energy (in GeV) of the proton and anti-proton after reaching V = 0.9995*c? What is the new kinetic energy (in GeV) of the proton and anti-proton after reaching the new speed? If the collision of the two particles produced a stationary massive particle, what is the stationary mass of the new particle in GeV/c

A proton and anti-proton with rest energy of, E0 = 931 MeV/c2 was traveling in the opposite direction at a speed of, V = 0.9995c (where c is a speed of light equal to 3.0 108 m/s). After traveling in a vacuum chamber, the two particles collide head-on to produce a new massive particle in the center of the chamber. What is the new Energy (in GeV) of the proton and anti-proton after reaching V = 0.9995*c? What is the new kinetic energy (in GeV) of the proton and anti-proton after reaching the new speed? If the collision of the two particles produced a stationary massive particle, what is the stationary mass of the new particle in GeV/c

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Question

A proton and anti-proton with rest energy of, E₀ = 931 MeV/c² was traveling in the opposite direction at a speed of, V = 0.9995*c (where c is a speed of light equal to 3.0 * 10⁸ m/s). After traveling in a vacuum chamber, the two particles collide head-on to produce a new massive particle in the center of the chamber.

What is the new Energy (in GeV) of the proton and anti-proton after reaching V = 0.9995*c?
What is the new kinetic energy (in GeV) of the proton and anti-proton after reaching the new speed?
If the collision of the two particles produced a stationary massive particle, what is the stationary mass of the new particle in GeV/c²?

Definition Definition Rate at which light travels, measured in a vacuum. The speed of light is a universal physical constant used in many areas of physics, most commonly denoted by the letter c . The value of the speed of light c = 299,792,458 m/s, but for most of the calculations, the value of the speed of light is approximated as c = 3 x 10 8 m/s.

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