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A hockey puck, mass 0.24 kg, travelling with a speed of +20 m/s. collides with another...
20. A hockey puck travels across the ice at a speed of 38 m/s 34° north...
20. A hockey puck travels across the ice at a speed of 38 m/s 34° north of east. It has a glancing collision with a stationary puck of the exact same mass. The previously stationary puck moves at 33 m/s 24° north of east. What is the speed and direction of the first puck (both pucks have a mass of 0.3 kg) after the collision? Is the collision elastic or inelastic?
A 5.00 kg frictionless puck travelling at 8.00 m/s collides with another of mass 3.0 kg...
A 5.00 kg frictionless puck travelling at 8.00 m/s collides with another of mass 3.0 kg which is travelling in the same direction at 4.0 m/s. They remain stuck together after the collision : What is their speed after the collision?
Puck A of mass 240-g is traveling due east with a speed, v_Ai=10 m/s, on a...
Puck A of mass 240-g is traveling due east with a speed, v_Ai=10
m/s, on a level, frictionless air table when it collides with puck
B of mass 160 g traveling at 40° south of west with a speed,
v_Bi=15 m/s, on the same table. (See the diagram below.) When the
pucks collide, they stick together via Velcro surfaces that line
the circular boundaries of both pucks. Find the magnitude and
direction of the momentum of the tandem of pucks...
A 1.25kg hockey puck (puck A) slides across a frictionless sheet of ice and collides with...
A 1.25kg hockey puck (puck A) slides across a frictionless sheet of ice and collides with a puck of unknown mass (puck B) head on. The collision is completely elastic, which means no kinetic enegy is lost in the collision. After the collision, puck A moves in the opposite direction at half of its initial speed. Find the mass of puck B.
A hockey puck of mass m = 0.170 kg is loaded into a spring gun with...
A hockey puck of mass
m = 0.170 kg is loaded into a spring gun with spring
constant k = 306 N/m. The spring is compressed by a
distance d = 0.100 m and then released, launching the puck
onto a horizontal and frictionless surface of ice with speed v in
the positive x-direction. This puck then collides with
another puck of the same mass which is at rest at the origin.
After the collision the two pucks move away...
Puck A of mass 240-g is traveling due east with a speed, , on a level,...
Puck A of mass 240-g is traveling due east
with a speed, , on a level, frictionless air table when it collides
with puck B of mass 160 g traveling at 40° south of west with a
speed, , on the same table. (See the diagram below.) When the pucks
collide, they stick together via Velcro surfaces that line the
circular boundaries of both pucks. Find the magnitude and direction
of the momentum of the tandem of pucks after the...
A hockey puck (m1=0.4 kg) is sliding along the ice in the +y direction with a...
A hockey puck (m1=0.4 kg) is sliding along the ice in the +y direction with a speed of v1=5.2 m/s. It collides with curling rock m2=6.7 kg travelling in the +x direction with speed v2 = 0.18 m/s and the two objects stick together. At what angle with respect to the +x axis does the combined object travel after the collision?
Two hockey pucks approach each other as shown in the figure below. Puck 1 has an...
Two hockey pucks approach each other as shown in the figure below. Puck 1 has an initial speed of 19 m/s, and puck 2 has an initial speed of 14 m/s. They collide and some glue on one of the pucks causes them to stick together. (Assume the pucks have the same mass.) (a) If the two pucks form a ''system'' is the momentum of this system along x or y conserved? (b) Find the components along x and y...
A hockey puck (mass = 3 kg) leaves the players stick with a speed of 18...
A hockey puck (mass = 3 kg) leaves the players stick with a speed of 18 m/s and slides on the ice before coming to rest. The coefficient of friction between the puck and the ice is 0.4. How far will the puck slide after leaving the players stick?
A hockey puck (mass = 3.5 kg) leaves the players stick with a speed of 25...
A hockey puck (mass = 3.5 kg) leaves the players stick with a speed of 25 m/s and slides on the ice for 50 meters before coming to rest. What is the magnitude of the acceleration on the puck? m/s2 What is the magnitude of the friction force exerted on the puck due to the ice? N What is the normal force on the puck? N What is the friction coefficient between the puck and the ice? (unitless)
Puck A of mass 240-g is traveling due east with a speed, v_Ai=10
m/s, on a level, frictionless air table when it collides with puck
B of mass 160 g traveling at 40° south of west with a speed,
v_Bi=15 m/s, on the same table. (See the diagram below.) When the
pucks collide, they stick together via Velcro surfaces that line
the circular boundaries of both pucks. Find the magnitude and
direction of the momentum of the tandem of pucks...
A hockey puck of mass
m = 0.170 kg is loaded into a spring gun with spring
constant k = 306 N/m. The spring is compressed by a
distance d = 0.100 m and then released, launching the puck
onto a horizontal and frictionless surface of ice with speed v in
the positive x-direction. This puck then collides with
another puck of the same mass which is at rest at the origin.
After the collision the two pucks move away...
Puck A of mass 240-g is traveling due east
with a speed, , on a level, frictionless air table when it collides
with puck B of mass 160 g traveling at 40° south of west with a
speed, , on the same table. (See the diagram below.) When the pucks
collide, they stick together via Velcro surfaces that line the
circular boundaries of both pucks. Find the magnitude and direction
of the momentum of the tandem of pucks after the...
Two hockey pucks approach each other as shown in the figure below. Puck 1 has an initial speed of 19 m/s, and puck 2 has an initial speed of 14 m/s. They collide and some glue on one of the pucks causes them to stick together. (Assume the pucks have the same mass.) (a) If the two pucks form a ''system'' is the momentum of this system along x or y conserved? (b) Find the components along x and y...
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