Two 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 v6.00 m/s as in Figure a, shown below. After the collision, the orange disk moves in a direction that makes an angle of 34.0 with the horizontal axis while the green disk makes an angle of 56.0 with this axis as in Figure b. Determine the speed of each disk after the collision. m/s m/s Before the collision After the collision Ø
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- can you please provide the equations and how to solve these problems, thank youTwo ice pucks (one orange and one blue) of equal mass are involved in a perfectly elastic glancing collision as shown in the figures below. The orange puck is initially moving to the right at voi = 4.90 m/s, strikes the initially stationary blue puck, and moves off in a direction that makes an angle of ? = 37.0° with the horizontal axis while the blue puck makes an angle of ? = 53.0° with this axis as in the second figure. Note that for an elastic collision of two equal masses, the separation angle? + ? = 90.0°. Determine the speed of each puck after the collision in meters per second. v0f = ? m/s vbf = ? m/sOn a frictionless air track, a blue glider with a mass 0.200kg is moving to the right with a speed if 8.00m/s. It strikes a red glider that has a mass 0.600kg and that is initially at rest. After the collision, the blue glider is moving to the left with a speed of 2.40m/s. a) what are the magnitude and direction of the velocity of the red glider after the collision?
- A fireworks rocket is moving at a speed of v = 46.3 m/s. The rocket suddenly breaks into two pieces of equal mass, which fly off with velocities v1at an angle of theta1 = 29.0° and v2 at an angle of theta2 = 61.0° as shown in the drawing below. What is the magnitude of v1?Two 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 voi = 3.00 m/s as in Figure a, shown below. After the collision, the orange disk moves in a direction that makes an angle of 0 = 35.0° with the horizontal axis while the green disk makes an angle of o 55.0° with this axis as in Figure b. Determine the speed of each disk after the collision. Vof = m/s Vaf = m/s After the collision Before the collision Need Help? Watch It Read ItA 81.7 kg linebacker (X) is running at 7.31 m/s directly toward the sideline of a football field. He tackles a 98.2 kg running back (O) moving at 9.05 m/s straight toward the goal line, perpendicular to the original direction of the linebacker. As a result of the collision, both players momentarily leave the ground and go out‑of‑bounds at an angle ? relative to the sideline, as shown in the diagrams. Before impact After impact images below What is the common speed ?f of the players immediately after their impact? ?f= m/s What is the angle ? of their motion relative to the sideline? ?= °
- Two 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 vo- 7.75 m/s as in Figure a, shown below. After the collision, the orange disk moves in a direction that makes an angle of e = 39.0° with the horizontal axis while the green disk makes an angle of 9 = 51.0° with this axis'as in Figure b. Determine the speed of each disk after the collision. Vof= m/s Vof- m/s After the collision Before the collisionTwo 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 bIn Figure (1), a 3.50 g bullet is fired horizontally at two blocks at rest on a frictionless table. The bullet passes through block 1 (mass 1.11 kg) and embeds itself in block 2 (mass 1.62 kg). The blocks end up with speeds v₁ = 0.600 m/s and v₂ = 1.50 m/s (see Figure (2)). Neglecting the material removed from block 1 by the bullet, find the speed of the bullet as it (a) leaves and (b) enters block 1. Frictionless (a) Number (b) Number Units Units (1) (2)
- Two 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 Ⓡ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.Two 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 vOi = 5.80 m/s as in Figure a, shown below. After the collision, the orange disk moves in a direction that makes an angle of ? = 34.0° with the horizontal axis while the green disk makes an angle of ? = 56.0° with this axis as in Figure b. Determine the speed of each disk after the collision.