Object 1 (mass=5.6 kg) traveling in the +x direction at a speed
of 11.33m/s undergoes an inelastic collision with Object 2
(mass=4.20kg) which is at rest. Object two flies off at a speed of
7.50m/s and an angle θ2=30.9 °. The diagram
below is just a sketch and is not meant to have accurate angles. It
is possible that Object 1 travels back and to the left, though it
is not possible for it to travel in the -y
direction. (Do you know why?)
What is the total momentum in x direction after
the collision?
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What is the momentum of Object 1 in the y direction after the collision?
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What is the speed of Object 1 after the collision?
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What is the angle θ1 in degrees? (Do not enter units)
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Object 1 (mass=5.6 kg) traveling in the +x direction at a speed of 11.33m/s undergoes an...
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An object with total mass mtotal = 16.2 kg is sitting at rest when it explodes into three pieces. One piece with mass m1 = 4.7 kg moves up and to the left at an angle of θ1 = 23° above the –x axis with a speed of v1 = 25.3 m/s. A second piece with mass m2 = 5.1 kg moves down and to the right, an angle of θ2 = 28° to the right of the -y axis...
Billiard ball A of mass 1.80 kg is given a velocity 6.10 m/s in
+x direction as shown in the figure. Ball A strikes ball B of the
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at angles ΘA = 60.0 ° and
ΘB respectively. The velocity of ball A after
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What is the total momentum after impact in x-direction?
Tries 0/10
What is...
An object (A) of mass mAA = 27.5 kg is moving in a direction that makes angle of 56° south of east with a speed vAA = 5.00 m/s, while object (B) of mass mBB = 17.5 kg is moving due north with a speed vBB = 8.00 m/s. The two objects collide and stick together in a completely inelastic collision. Find the magnitude of the final velocity of the two-object system after the collision.
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In the arrangement of the figure, billiard ball 1 moving at a
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mal li if (a) What is the magnitude of the velocity of ball 1 after the collision? m/s (b) What is its direction? o clockwise from the +x axis (c) Do the given data...
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Object A of mass M is initially at rest on a flat, smooth
frictionless surface. Object B, which has twice the mass of A, is
traveling with speed V before it collides elastically with A.
Immediately after the collision, both objects move off at angles
(theta)>0 with respect to the original direction of B. Calculate
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[Hint: Note that the collision is elastic.] .
Object A of mass M is initially at rest on a flat,...
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