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10 Nov 2019
Two particles, each of rest mass mo, travel towards each other at speed 0.5c. They collide head-on and stick together without the emission of any other particles. Calculate the value of the Lorentz gamma factor gamma associated with the speed 0.5c. Calculate the total relativistic energy E of the two particles before the collision. Calculate the total relativistic momentum p of the two particles before the collision. Use relativistic conservation laws to calculate the mass M and speed V of the product particle offer the collision.
Two particles, each of rest mass mo, travel towards each other at speed 0.5c. They collide head-on and stick together without the emission of any other particles. Calculate the value of the Lorentz gamma factor gamma associated with the speed 0.5c. Calculate the total relativistic energy E of the two particles before the collision. Calculate the total relativistic momentum p of the two particles before the collision. Use relativistic conservation laws to calculate the mass M and speed V of the product particle offer the collision.
Lelia LubowitzLv2
7 Aug 2019