(3) A small truck of mass mtruck Collides with an initially stationary automobile of mass mauto....
Name (3) A small truck of mass mtruck Collides with an initially stationary automobile of mass mauto The deceleration of the truck is-atruck, and the collision occurs over a time t. What is the speed of the automobile after the collision, neglecting any friction. (Assume that all motion is colinear.) [10 pts] 4) A block is released from rest slides down to the bottom of a plane of incline q from a height h; the block attains a speed vbottom....
An electron collides elastically with a stationary hydrogen atom. The mass of the hydrogen atom is 1837 times that of the electron. Assume that all motion, before and after the collision, occurs along the same straight line. What is the final velocity of the hydrogen atom after the collision if the final velocity of the electron is -195 m/s?
An electron collides elastically with a stationary hydrogen atom. The mass of the hydrogen atom is 1837 times that of the electron. Assume that all motion, before and after the collision, occurs along the same straight line. What is the final velocity of the hydrogen atom after the collision if the final velocity of the electron is -135 m/s?
An electron collides elastically with a stationary hydrogen atom. The mass of the hydrogen atom is 1837 times that of the electron. Assume that all motion, before and after the collision, occurs along the same straight line. What is the final velocity of the hydrogen atom after the collision if the final velocity of the electron is -155 m/s?
QUESTION 4 15 points Save A truck of mass 5m traveling with a speed v collides with a stationary car of mass m. If the collision is perfectly Inelastic, what is the joint speed of the car and truck immediately after the collision? Or OV 6 OS QUESTION 5 15 points Save An Two objects collide and bounce apart. If the total kinetic energy of the objects is the same before and after the collision, what type of collision is...
10) A proton moving at 2.44x105 m/s elastically collides with a helium nucleus that is initially at rest. Assume that all of the motion is in one dimension. Determine the speed and direction of motion of each body after the collision. Note: Mass of a hydrogen nucleus is approximately 1.0 u Mass of a helium nucleus is approximately 4.0 u Please post both the equation and the final answer. thank you 10) A proton moving at 2.44x 103 m/s clastically...
A 1425 kg truck driving at 13.0 m/s collides elastically with a stationary 1175 kg car. If the car is traveling 14.25 m/s just after the collision, what is the velocity of the truck immediately after the collision? Assume that this is a perfectly elastic collision. Round your answer to the hundredths place. Final velocity of the truck = m/s
only need part c (20%) Problem 5: A body of mass 1.8 kg and initial speed of 39 m/s collides with an initially resting body of mass 19 kg. The bodies stick together after the collision and continue moving (in the direction of the initially moving body). The motion takes place on a horizontal flat surface with negligible friction. 33% Part (a) Find the speed of the combined body immediately after the collision, in meters per second 3.375 Correct! 33%...
A block of mass m1 moving with speed v1 undergoes a completely inelastic collision with a stationary block of mass m2. The blocks then move, stuck together, at speed v2. After a short time, the two-block system collides inelastically with a third block, of mass m3, which is initially stationary. The three blocks then move, stuck together, with speed v3 (Figure 1) . All three blocks have nonzero mass. Assume that the blocks slide without friction.