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 collision. Draw the final momentum vector into the diagram below at the point of the collision.
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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, 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...
Initially, a light puck is moving east at 5.0 m/s and a heavy puck moves south...
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wo pucks collide on an air hockey table. Puck A has a mass of 26.0 g...
wo pucks collide on an air hockey table. Puck A has a mass of
26.0 g and is initially traveling in the +xdirection at
6.50 m/s. Puck B has a mass of 78.0 g and is initially at rest.
After the pucks collide, puck A moves away at an angle of
58.0
above the +x axis, while puck B travels at an angle of
26.0
below the +x axis.
Calculate puck A's final speed.
Calculate puck B's final speed.
What...
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Two pucks collide on an air hockey table. Puck A has a mass of 28 g...
Two pucks collide on an air hockey table. Puck A has a mass of 28 g and is initially traveling in the +x direction at 7.8 m/s. Puck B has a mass of 112 g and is initially at rest. After the pucks collide, puck A moves away at an angle of 45$^\circ$ above the +x axis, while puck B travels at an angle of 42$^\circ$ below the +x axis. Calculate puck A's final speed and puck B's final speed....
Two pucks collide on an air hockey table. Puck A has a mass of 27.0 g...
Two pucks collide on an air hockey table. Puck A has a mass of 27.0 g and is initially traveling in the +x direction at 6.20 m/s. Puck B has a mass of 108.0 g and is initially at rest. After the pucks collide, puck A moves away at an angle of 54.0 deg above the +x axis, while puck B travels at an angle of 29.0 deg below the +x axis. A.Calculate puck A's final speed. B.Calculate puck B's...
A hockey puck, mass 0.24 kg, travelling with a speed of +20 m/s. collides with another...
A hockey puck, mass 0.24 kg, travelling with a speed of +20 m/s. collides with another stationary puck of exactly half the mass, hitting it head-on, but instant superglue makes the pucks stick together. The collision is perfectly inelastic and one dimensional. Ignore any friction with the ice they are travelling on. Calculate the total momentum of the two-puck system both before and after the collision.
A hockey puck (1) of mass 120 g is shot east at a speed of 8.80...
A hockey puck (1) of mass 120 g is shot east at a speed of 8.80 m/s. It strikes a second puck (2), initially at rest, of mass 138 g. As a result of the collision, the first puck (1) is deflected at an angle of 46° south of east and the second puck (2) moves at an angle of 40° north of east. What is the magnitude of the velocity of puck (1) after the collision?
A hockey puck (1) of mass 180 g is shot east at a speed of 8.80...
A hockey puck (1) of mass 180 g is shot east at a speed of 8.80 m/s. It strikes a second puck (2), initially at rest, of mass 198 g. As a result of the collision, the first puck (1) is deflected at an angle of 30° south of east and the second puck (2) moves at an angle of 50° north of east. What is the magnitude of the velocity of puck (1) after the collision? m/s
Two pucks collide on an air hockey table. Puck A has a mass of 25.0 g...
Two pucks collide on an air hockey table. Puck A has a mass of 25.0 g and is initially traveling in the +x direction at 7.40 m/s. Puck B has a mass of 100.0 g and is initially at rest. After the pucks collide, puck A moves away at an angle of 43.0 deg above the +x axis, while puck B travels at an angle of 40.0 deg below the +x axis. 1) Calculate puck A's final speed 2) Calculate...
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...
wo pucks collide on an air hockey table. Puck A has a mass of
26.0 g and is initially traveling in the +xdirection at
6.50 m/s. Puck B has a mass of 78.0 g and is initially at rest.
After the pucks collide, puck A moves away at an angle of
58.0
above the +x axis, while puck B travels at an angle of
26.0
below the +x axis.
Calculate puck A's final speed.
Calculate puck B's final speed.
What...
A hockey puck, mass 0.24 kg, travelling with a speed of +20 m/s. collides with another stationary puck of exactly half the mass, hitting it head-on, but instant superglue makes the pucks stick together. The collision is perfectly inelastic and one dimensional. Ignore any friction with the ice they are travelling on. Calculate the total momentum of the two-puck system both before and after the collision.
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