A hockey puck is sliding on a frictionless ice, in an eastward direction. It collides with a second hockey puck, initially stationary, which then goes off in the Northern direction. What direction is the first hockey puck moving after the collision?
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Q: A 8.15-g bullet is moving horizontally with a velocity of +352 m/s, where the sign + indicates that…
A: See below
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- Two shuffleboard disks of equal mass, one orange and the other green, are involved in a perfectly elastic glancing collision. Voi = 3.15 m/s as in Figure The green disk is initially at rest and is struck by the orange disk moving initially to the right at v a, shown below. After the collision, the orange disk moves in a direction that makes an angle of 0 = 38.0° with the horizontal axis while the green disk makes an angle of = 52.0° with this axis as in Figure b. Determine the speed of each disk after the collision. X V of Vgf= 1.66 Your response differs from the correct answer by more than 10%. Double check your calculations. m/s m/s a Before the collision After the collision bTwo boxes make a perfectly elastic collision on a horizontal frictionless surface as shown in the figure. Box with mass m= 8.0 kg and speed of 4.50 m/s collides with box M. After the collision, box m recoils with a speed of 0.75 m/s. The boxes are in contact for 0.30 s. The magnitude of the average force on the 8.0 kg box, while the two blocks are in contact, isIn the game of medicine-ball-on-ice, players pass around a medicine ball while they are on ice, which can be assumed to be a frictionless surface. During a game, a 20 kg medicine ball travelling horizontally west at 20 km/h is caught and held by a 50 kg player, who is initially at rest. What is the velocity of the player after she catches the medicine ball?
- A 8.58-g bullet is moving horizontally with a velocity of +366 m/s, where the sign + indicates that it is moving to the right (see part a of the drawing). The bullet is approaching two blocks resting on a horizontal frictionless surface. Air resistance is negligible. The bullet passes completely through the first block (an inelastic collision) and embeds itself in the second one, as indicated in part b. Note that both blocks are moving after the collision with the bullet. The mass of the first block is 1168 g, and its velocity is +0.625 m/s after the bullet passes through it. The mass of the second block is 1556 g. (a) What is the velocity of the second block after the bullet imbeds itself? (b) Find the ratio of the total kinetic energy after the collision to that before the collision. +366m/s Block 1 (a) Before collision +0.625m/s mblock 1=1168 (b) After collision (a) Vblock2= Number (b) KE after/KEbefore = Number Block 2 17 block 2 = 1556 Mbullet =8.58E i block 2 K Units UnitsTwo shuffleboard disks of equal mass, one orange and the other green, are involved in a perfectly elastic glancing collision. The green disk is initially at rest and is struck by the orange disk moving initially to the right at vi = 4.40 m/s as in Figure a, shown below. After the collision, the orange disk moves in a direction that makes an angle of 8 = 40.0° with the horizontal axis while the green disk makes an angle of = 50.0° with this axis as in Figure b. Determine the speed of each disk after the collision. of=1 m/s m/s Vgf= Before the collision After the collision. b of ⓇA 83.8-kg boy and a 59.4-kg girl, both wearing skates face each other at rest on a skating rink. The boy pushes the girl, sending her to the left with a velocity of -2.72 m/s. Neglecting friction, determine the subsequent velocity of the boy to the right. Answer: + m/s
- two shuffleboard disks of equal mass, one orange, and the other green are involved in an elastic glancing collision. the green disk is initially at rest and is struck by the orange disk moving initially to the right at voi=5.95 m/s as in figure a, after the collision, the orange disk moves in a direction that make an angle of theatre =34.0 degrees with the horizontal axis makes an angle =56.0 degrees. determine the speed of each disk after the collision.Jack (mass 56.0 kg) is sliding due east with speed 8.00 m/s on the surface of a frozen pond. He collides with Jill (mass 49.0 kg), who is initially at rest. After the collision, Jack is traveling at 5.00 m/s in a direction 34.0 degrees north of east. Ignore friction. What is the magnitude of the Jill's velocity, after the collision, as she travels at an angle of 35.95 degrees south of east?A large block of mass 3.80 kg slides on a frictionless table and collides head-on with a small block of mass 2.50 kg. After the collision both blocks move in the same direction as the original motion of the large block, and fall off the edge of the table. The small block hits the floor at a point 2.18 meters horizontally from the edge of the table, while the large block hits the floor at a point 1.38 meters horizontally from the edge of the table. The top of the table is 1.10 m above the floor. Find the speed, in m/s, of the large block before the collision.
- A 2.51 kg ball of clay is traveling straight north with a speed of 24.0 m/s, collides with a 3.55 kg ball of clay traveling straight east with a speed of 22.1 m/s. What is the speed of this new ball of clay after its collision? What direction is it traveling, given as a degree north of east?A 85.4-kg boy and a 61.3-kg girl, both wearing skates face each other at rest on a skating rink. The boy pushes the girl, sending her to the left with a velocity of -2.52 m/s. Neglecting friction, determine the subsequent velocity of the boy to the right. Answer: + m/sBlock A, with a mass of 0.410 kg, is traveling north on a frictionless surface with a speed of 5.00 m/s. Block B, with a mass of 0.480 kg, travels west on the same surface until it collides with A. After the collision, the blocks move off together with a velocity of 3.13 m/s at an angle of 42.5° to the north of west. What was B’s speed just before the collision?