![57. A body A experiences perfectly elastic collision with a stationary body B. If after collision the bodies fly apart in the opposite direction with equal speeds, the mass ratio of A 57. A body A experiences perfectly elastic collision with a stationary body B. If after collision the bodies fly apart in the opposite direction with equal speeds, the mass ratio of A](https://toppr-doubts-media.s3.amazonaws.com/images/2353728/4be4ab91-a519-4cf6-8be9-ff3aacde5739.jpg)
57. A body A experiences perfectly elastic collision with a stationary body B. If after collision the bodies fly apart in the opposite direction with equal speeds, the mass ratio of A
![Particle 1 experiences a perfectly elastic collision with a stationary particle 2. Determine their mass ratio, ifafter a head-on collision the particles fly apart in the opposite direction with equal velocities; Particle 1 experiences a perfectly elastic collision with a stationary particle 2. Determine their mass ratio, ifafter a head-on collision the particles fly apart in the opposite direction with equal velocities;](https://haygot.s3.amazonaws.com/questions/1901886_1852315_ans_6586771fb49042f4992d09f4ee373066.jpg)
Particle 1 experiences a perfectly elastic collision with a stationary particle 2. Determine their mass ratio, ifafter a head-on collision the particles fly apart in the opposite direction with equal velocities;
11.Particle A makes a perfect elastic collision with another particle B at rest. They fly apart in opposite direction with equal speeds. If their masses are mA and mB respectively, then (1)2mA=mB (
![Collisions Vector Illustration Elastic Perfectly Inelastic Stock Vector (Royalty Free) 1717980856 | Shutterstock Collisions Vector Illustration Elastic Perfectly Inelastic Stock Vector (Royalty Free) 1717980856 | Shutterstock](https://www.shutterstock.com/image-vector/collisions-vector-illustration-elastic-perfectly-600w-1717980856.jpg)
Collisions Vector Illustration Elastic Perfectly Inelastic Stock Vector (Royalty Free) 1717980856 | Shutterstock
![SOLVED: In a perfectly elastic collision, in addition to momentum always being conserved, the kinetic energy is also conserved. To solve this problem in general is a large and complicated algebra exercise. SOLVED: In a perfectly elastic collision, in addition to momentum always being conserved, the kinetic energy is also conserved. To solve this problem in general is a large and complicated algebra exercise.](https://cdn.numerade.com/ask_images/1ecc0987a6474e1b95176e2be3fc43d3.jpg)