7. A 1.000 kg particle moves at a speed of 0.500 m/s, as shown in Figure 2a. It collideswith a 2,000 kg particle at rest at origin. What is the system's total momentum of thesystem in the x and y direction before the collision?+ym2) V430mm2+X+X45°(a)(b)Fig. 2: Collision of mass m, and m,8. Figure 2b shows that, after a collision, m, travels at a speed v3 at an angle e, =315.0° with respect to the horizontal axis, while m, moves at a speed v, at an angleO, = 30.0° with respect to the horizontal axis. Write an equation for the system's totalmomentum in the x and y direction after the collision.9. Using the equations produced in question 8, solve the value of v3 and v4.

Apologies. We only answer one question at a time. we will answer the first one as the exact others…

A 1.000 kg particle moves at a speed of 0.500 m/s, as shown in Figure 2a. It collides with a 2,000 kg particle at rest at origin. What is the system's total momentum of the system in the x and y direction before the collision?

A 1.000 kg particle moves at a speed of 0.500 m/s, as shown in Figure 2a. It collides with a 2,000 kg particle at rest at origin. What is the system's total momentum of the system in the x and y direction before the collision?

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

See similar textbooks

Similar questions

A cricket ball of 200 g travelling horizontally with a speed of 50 m/s hits a wall and coming back again with a speed of 30 m/s. What is the magnitude of change in linear momentum of the ball? Select one: a. 4 kg.m/s b. 400 kg.m/s c. 16 kg.m. d. 4000 kg.m/s
a) What is the total momentum of this two-astroid system? (Give answer in component form). Don’t forget to include appropriate units in your answers!
Problem 11: The eight ball, which has a mass of m = 0.5 kg, is initially moving with a velocity v = 2.9i m/s. It strikes the six ball inelastically, which has an identical mass and is initially at rest. After the collision the eight ball is deflected by an angle of 0 = 19° and the six ball is deflected by an angle of = 13°, as shown in the figure. 8 V
A 0.330-kg volleyball is thrown vertically downward with a speed of 0.150 m/s in a place where g = 9.81 m/s2. It takes it 0.0655 s to reach the ground. What is the magnitude of its momentum just before it hits the ground?
Object 1 with a mass of 4.70 kg, moving right at a speed of 7.80 m/s along a frictionless surface, collides head-on with Object 2 with a mass of 3.30 kg moving left at a speed of 10.6 m/s. After the collision, the Object 1 is moving left at 2.40 m/s. 10. What is true about the total momentum before and after the collision? O Equal in magnitude but opposite in direction O Different in magnitude and direction O Equal in magnitude and direction O Different in magnitude but in the same direction
Need help checking a practice problem. Thanks!
V1 0° 17 V2 A hockey puck is traveling to the left with a velocity of 2-m/s when it is struck by a hockey stick and given a velocity of 13 -m/s where 0 =1° as shown. Determine the variation of the momentum of the puck. The puck has a mass of 9.00-kg.
A 500-gram ball traveling to the right at 4.0 m/s collides with and bounces off another ball that is initially at rest. The figure shows the momentum vector of the first ball after the collision. Draw (a) the momentum vector of the first ball before the collision and (b) the momentum vector of the second ball after the collision.
A particle of mass m₁ and velocity v₁ hits the stationary particle of mass m2. After the collision, the outgoing speeds of these particles are equal. Considering elastic collision what is the angle between velocities of the particles after collision? Mass m₁ = 2m2.
A railroad car of mass 3.50 ✕ 104 kg moving at 3.05 m/s collides and couples with two coupled railroad cars, each of the same mass as the single car and moving in the same direction at 1.20 m/s. a) What is the speed of the three coupled cars after the collision? b) How much kinetic energy is lost in the collision?
A man claims he can safely hold on to a 10.20 kg child in a head-on collision with a relative speed of 123. mi/h lasting for 0.140 s as long as he has his seat belt on. Hint: 1 mi/h = 0.447 m/s (a) Find the magnitude of the momentum of the child. A man claims he can safely hold on to a 10.20 kg child in a head-on collision with a relative speed of 123. mi/h lasting for 0.140 s as long as he has his seat belt on. (c) For comparison, calculate the magnitude of force generated by the record weightlifting champion in the 2004 Olympics. He lifted 263 kg. Based on these results, is the man’s claim valid? Explain why or why not.
A professional golfer is examining a video of a practice swing. The high‑speed footage shows that his club is in contact with the ball (which was initially at rest on the tee) for only Δ?=0.771 ms, and the radar gun clocks the speed of the ball as ?b=176 mph after it comes off the club. The golf ball has a mass of ?b=45.9 g. a. What is the magnitude of the impulse imparted to the ball by the club? b. What is the magnitude of the average force of contact between the club and the ball?