Block 1, of mass m1 = 1.10 kg , moves along a frictionless air track with...
Block 1, of mass m1 = 1.10 kg , moves along a frictionless air track with speed v1 = 29.0 m/s . It collides with block 2, of mass m2 = 45.0 kg , which was initially at rest. The blocks stick together after the collision. (Figure 1)
Find the magnitude pi of the total initial momentum of the two-block system.
Find vf, the magnitude of the final velocity of the two-block system.
What is the change ΔK=Kfinal−Kinitial in the two-block system's kinetic energy due to the collision?
Homework Answers
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Block 1, of mass m1 = 1.10 kg , moves along a frictionless air
track with...
Block 1, of mass m1 = 2.30 kg, moves along a frictionless air track with speed...
Block 1, of mass m1 = 2.30 kg, moves along a frictionless air track with speed v1 = 31.0 m/s. It collides with block 2, of mass m2 = 13.0 kg, which was initially at rest. The blocks stick together after the collision. A) Find the magnitude pi of the total initial momentum of the two-block system. B) Find vf, the magnitude of the final velocity of the two-block system C)What is the change ΔK=Kfinal−Kinitial in the two-block system's kinetic...
Block 1, of mass m1 = 3.50 kg , moves along a frictionless air track with...
Block 1, of mass m1 = 3.50 kg , moves along a frictionless air track with speed v1 = 11.0 m/s . It collides with block 2, of mass m2 = 43.0 kg , which was initially at rest. The blocks stick together after the collision. What is the change ΔK=Kfinal−Kinitial in the two-block system's kinetic energy due to the collision?
Block 1, of mass m1 = 8.90 kg , moves along a frictionless air track with...
Block 1, of mass m1 = 8.90 kg , moves along a frictionless air track with speed v1 = 31.0 m/s . It collides with block 2, of mass m2 = 15.0 kg , which was initially at rest. The blocks stick together after the collision. (Figure 1) What is the change ΔK=Kfinal−Kinitial in the two-block system's kinetic energy due to the collision?
Block 1, of mass m1 = 9.10 kg , moves along a frictionless air track with...
Block 1, of mass m1 = 9.10 kg , moves along a frictionless air
track with speed v1 = 27.0 m/s . It collides with block 2, of mass
m2 = 13.0 kg , which was initially at rest. The blocks stick
together after the collision.
What is the change ΔK=Kfinal−Kinitial in the two-block system's
kinetic energy due to the collision?
Express your answer numerically in joules.
Before collision: m2 After collision:
Block 1, of mass m1m1m_1 = 6.70 kgkg , moves along a frictionless air track with...
Block 1, of mass m1m1m_1 = 6.70 kgkg , moves along a frictionless air track with speed v1v1v_1 = 27.0 m/sm/s . It collides with block 2, of mass m2m2m_2 = 57.0 kgkg , which was initially at rest. The blocks stick together after the collision. (Figure 1) Figure 1 of 1The figure shows two states of a system of two blocks, labeled 1 and 2, of masses m 1 and m 2, respectively. Block 2 is to the right...
Block 1, of mass = 3.70 , moves along a frictionless air track with speed =...
Block 1, of mass = 3.70
, moves along a frictionless air track with
speed = 23.0
. It collides with block 2, of mass = 13.0
, which was initially at rest. The blocks stick
togetherafter the collision.
part A
Find the magnitude of the total initial momentum of the
two-blocksystem.
Express your answernumerically.
part B
Find , the magnitude of the final velocity of the
two-blocksystem.
Express your answer numerically
part C
What is the change in the...
A block of mass m1 = 1.10 kg moving at v1 = 1.20 m/s undergoes a...
A block of mass m1 = 1.10 kg moving at v1 = 1.20 m/s undergoes a completely inelastic collision with a stationary block of mass m2 = 0.900 kg . The blocks then move, stuck together, at speed v2. After a short time, the two-block system collides inelastically with a third block, of mass m3 = 2.40 kg , which is initially at rest. The three blocks then move, stuck together, with speed v3. Assume that the blocks slide without...
A block of mass m1 = 1.10 kg moving at v1 = 1.20 m/s undergoes a...
A block of mass m1 = 1.10 kg moving at v1 = 1.20 m/s undergoes a completely inelastic collision with a stationary block of mass m2 = 0.900 kg . The blocks then move, stuck together, at speed v2. After a short time, the two-block system collides inelastically with a third block, of mass m3 = 2.40 kg , which is initially at rest. The three blocks then move, stuck together, with speed v3. Assume that the blocks slide without...
A block of mass m1 = 1.70 kg moving at v1 = 2.00 m/sundergoes a completely...
A block of mass m1 = 1.70 kg moving at v1 = 2.00 m/sundergoes a completely inelastic collision with a stationary block of mass m2 = 0.300 kg . The blocks then move, stuck together, at speed v2. After a short time, the two-block system collides inelastically with a third block, of mass m3 = 2.40 kg , which is initially at rest. The three blocks then move, stuck together, with speed v3.(Figure 1) Assume that the blocks slide without...
Block 2 (mass 1.10 kg) is at rest on a frictionless surface and touching the end...
Block 2 (mass 1.10 kg) is at rest on a frictionless surface and touching the end of an unstretched spring of spring constant 144 N/m. The other end of the spring is fixed to a wall. Block 1 (mass 1.70 kg), traveling at speed v1 = 3.60 m/s, collides with block 2, and the two blocks stick together. When the blocks momentarily stop, by what distance is the spring compressed? Answer 0.305 m My question is how did they solve...
Block 1, of mass m1 = 9.10 kg , moves along a frictionless air
track with speed v1 = 27.0 m/s . It collides with block 2, of mass
m2 = 13.0 kg , which was initially at rest. The blocks stick
together after the collision.
What is the change ΔK=Kfinal−Kinitial in the two-block system's
kinetic energy due to the collision?
Express your answer numerically in joules.
Before collision: m2 After collision:
Block 1, of mass = 3.70
, moves along a frictionless air track with
speed = 23.0
. It collides with block 2, of mass = 13.0
, which was initially at rest. The blocks stick
togetherafter the collision.
part A
Find the magnitude of the total initial momentum of the
two-blocksystem.
Express your answernumerically.
part B
Find , the magnitude of the final velocity of the
two-blocksystem.
Express your answer numerically
part C
What is the change in the...
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