A ball of clay (mass, m) is traveling to the right with a velocity of 10.4 m/s. It collides with a stationary 1) unknown object (mass 3m, effective radius 1 m), and the two objects stick together aft...
Part 1:A 20.0 g ball of clay traveling east at 3.00 m/s collides with a 30.0 g ball of clay traveling north at 4.00 m/s. To find the total momentum of this system before the collision, we must determine the momentum of each piece of clay and then sum the two momenta vectorially. The 20.0 g piece has a momentum 0.06 kgm/s east, and the 30.0 g has a momentum 0.12 kgm/s north. What is the magnitude of the vector...
Ball 1 has mass m and is moving to the right at v0 = 7.00 m/s. It collides with ball two, of mass 3m, which is at rest. After the collision ball 1 has a velocity of v1 = 4.50 m/s at an angle of ? = 30.0° relative to its original direction. Determine the magnitude and direction of the velocity, v2, of ball 2 after the collision.
*1. A clay ball has a mass of 2 kg and a velocity of 10 m/s. a) How much momentum does it have? b) The 2 kg ball strikes another ball, which is stationary, head on. The second ball has a mass of 3 kg. The two balls stick together. How much momentum will the combination have after the collision? c) What velocity will the combined masses have after the collision?
Two objects slide towards each other across a frictionless surface. Object 1 with a mass of 3.50 kg initially slides to the east with a speed of 0.750 m/s. Object 2 slides in the direction 30.0◦south of west with a speed of 1.25 m/ s. After colliding, the two objects stick together and slide due south. What is the final speed of both objects after the collision?
5. The figures on the right show a disk with radius, a = 0.20 m, and mass, M = 0.80 kg, resting on a frictionless table. One particle with mass, m1-M/4, with velocity, v- 4 m/s, slides along the stable, and collides with the disk at the point shown. A second particle with mass, m2, moving with velocity v2-4v collides with the disk at the point shown. The two masses collide with the disk at the same time, and after...
Problem 5A 2-kg object, moving at 1 m/s, collides with a 1-kg object that is initially at rest. Assume they form an isolated system.4.5. PROBLEMS (a) What is the initial kinetic energy of the system? How much of this is center of mass energy,and how much is convertible? (b) What is the maximum amount of kinetic energy that could be“lost” (converted to other forms of energy) in this collision? (c) If 60% of the amount you calculated in part (b)...
a. The figures show a disk with radius, a= 0.20 m, and mass, M= 0.80 kg, resting on a frictionless table. One particle with mass, m1 = M/4, with velocity, v= 4 m/s, slides along the stable, and collides with the disk at the point shown. A second particle with mass, m2, moving with velocity v2 = 4v collides with the disk at the point shown. The two masses collide with the disk at the same time, and after the...
1. Two asteroids collide head-on and stick together. Before the collision, asteroid A (mass 1,000 kg) moved at 100 m/s and asteroid B (mass 2,000 kg) moved at 80 m/s in the opposite direction. Use momentum conservation (make a complete Momentum chart) to find the velocity of the asteroids after the collision. 2. Two asteroids identical to those in (1) collide at right angles and stick together. "Collide at right angles" means that their initial velocities were perpendicular to each...
Two objects are moving in the xy-plane. Object A has a mass of 3.2 kg and has a velocity vA = < 2.3 m/s, 4.2 m/s > and object B has a mass of 2.9 kg and has a velocity vB = < -1.8 m/s, 2.7 m/s > . What is the total momentum of the system? A uniform sphere of radius 2R has a spherical cavity of radius R cut out of it. The center of the cavity is...
A railroad car of mass 1.85e4 kg moving at 3.14 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 1.24 m/s. b) How much kinetic energy is lost in the collision? USE THIS DATA: 17400 kg; 3.27 m/s; (help me see how you get the correct answer of 2.39e4 J. 16-4 A railroad car of mass 1.85e4 kg moving at 3.14 m/s collides and...