.Find an expression for the mean absolute velocity of a particle with mass m in a...

A particle of mass 2 kg and velocity 5 m/s collides head on with another particle...

A particle of mass 2 kg and velocity 5 m/s collides head on with another particle of mass 4 kg originally at rest. After the collision, the particle 1 continues in the same direction with the speed of 2.5 m/s. a. The velocity of particle 2 after collision is m/s. b. The energy (absolute value) lost in this collision is

A particle of mass m = 1.3 kg and initial velocity v0 = 12.5 m/s, strikes...

A particle of mass m = 1.3 kg and initial velocity v0 = 12.5 m/s, strikes an initially stationary particle of mass M = 10.5 kg. The collision is inelastic. Afterwards, particle m is observed moving at a speed v = 9.5 m/s, at an angle θ = 62° from its initial direction of motion, and particle M is observed moving at a speed V Find V, the final speed of particle M, in m/s. What happens to V if...

Mass of a Moving Particle The mass m of a particle moving at a velocity v...

Mass of a Moving Particle The mass m of a particle moving at a velocity v is related to its rest mass m0 by the equation m = m0 1 − v2 c2 where c (2.98 ✕ 108 m/s) is the speed of light. Suppose an electron of rest mass 9.11 ✕ 10−31 kg is being accelerated in a particle accelerator. When its velocity is 2.84 ✕ 108 m/s and its acceleration is 2.49 ✕ 105 m/s2, how fast is...

A particle with mass m1=250m1=250 g is moving with a velocity of v1=8.0v1=8.0 m/s. It collides...

A particle with mass m1=250m1=250 g is moving with a velocity of v1=8.0v1=8.0 m/s. It collides fully elastically with another particle with mass m2m2, which was initially at rest, and now it's velocity is u1=−3.0u1=−3.0 m/s. Find m2m2 (in grams).

A particle of mass m1 = 1.32 kg with an initial velocity v1 = 4.56 m/s...

A particle of mass m1 = 1.32 kg with an initial velocity v1 = 4.56 m/s has a completely inelastic collision with a second particle of mass m2 = 3.68 kg with an initial velocity v2 = 3.06 m/s. What is the velocity of the combined particles immediately after the collision? (Express your answer in vector form.)

A mass (m) moves along the x-axis with velocity 2v. Another particle of mass (2m) moves...

A mass (m) moves along the x-axis with velocity 2v. Another particle of mass (2m) moves with velocity v along the y-axis. 1) If the two objects collide inelastically and merge, how much kinetic energy is lost to heat? 2) If instead they collide elastically and it turns out that m still moves purely along the x-axis, what is it's velocity in the final state? It may help to find the velocities of these particles in the center of mass...

1. The velocity of a particle moving in a straight line is given by the function...

1. The velocity of a particle moving in a straight line is given by the function v (t) = 1.0t ^ 2 + 5.0 (m / s). Find the total displacement of the particle from t = 0 to t = 5.0 (s) using the definite integral of the function. 2. Find the position function for the following velocity function at t = 7.2t + 5.4 (m / s2), where we know that the initial velocity of the particle is...

if Vcm is the velocity of the center of mass of a group of particle with...

if Vcm is the velocity of the center of mass of a group of particle with masses and positions of mi and ri and ri' are these particles positions with respect to their center of mass then prove that the kinetic energy for these particles is given by T =

A particle of mass m is initially at x = 28 cm with a period of...

A particle of mass m is initially at x = 28 cm with a period of 1.3 s and moving with velocity v0 = +52 cm/s. Write expressions for the following. (Round numerical values in your answers to two decimal places.) (a) the position x as a function of t x(t) = _____ m (b) the velocity vx as a function of t vx(t) = _____ m/s (c) the acceleration ax as a function of t ax(t) = _____ m/s2

If the root mean square velocity of the particles in a gas is 450 m/s, and...

If the root mean square velocity of the particles in a gas is 450 m/s, and a particle collides with another particle every 2.0 × 10-9 seconds on average, then the mean free path is. a. 6.0x10^-7 m. b. 7.5x10^-7 m. c.6.9x10^-7 m. d. 9.0x10^-7m. e. 85x10^-7 m.