A 15.0 kg block is attached to a very light horizontal spring of force constant 325 N/m and is resting on a smooth horizontal table
A 15.0 kg block is attached to a very light horizontal spring of force constant 325 N/m and is resting on a smooth horizontal table. (See the figure below (Figure 1).) Suddenly it is struck by a 3.00 kg stone traveling horizontally at 8.00 m/s to the right, whereupon the stone rebounds at 2.00 m/s horizontally to the left.
Part A
Find the maximum distance that the block will compress the spring after the collision (Hint Break this problem into two parts. The collision and the behavior her the collision and apply the appropriate conservation law to each part)
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A 15.0 kg block is attached to a very light horizontal spring of force constant 325 N/m and is resting on a smooth horizontal table
A 15.0 kg block is attached to a very light horizontal spring of force constant 400 N/m and is resting on a smooth hor...
A 15.0 kg block is attached to a very light
horizontal spring of force constant 400 N/m and is
resting on a smooth horizontal table. (See the figure below .)
Suddenly it is struck by a 3.00 kg stone traveling
horizontally at 8.00 m/s to the right, whereupon the
stone rebounds at 2.00 m/s horizontally to the
left.
Find the maximum distance that the block will compress the
spring in m after the collision.
A 15.0 kg block is attached to a very light horizontal spring of force constant 375...
A 15.0 kg block is attached to a very light horizontal spring of force constant 375 N/m and is resting on a frictionless horizontal table. (See the figure below (Figure 1).) Suddenly it is struck by a 3.00 kg stone traveling horizontally at 8.00 m/s to the right, whereupon the stone rebounds at 2.00 m/s horizontally to the left. Find the maximum distance that the block will compress the spring after the collision. x=...?meter
A 15.0 kg box is attached to a very light horizontal spring (uncompressed) with a spring...
A 15.0 kg box is attached to a very light horizontal spring (uncompressed) with a spring force constant 375 N/m and is resting on a smooth horizontal table. (See the figure below (Figure 1).) The box is hit by a 3.00 kg rock that is flying horizontally at 8.00 m/s to the right at the moment of the collision. After the collision, the rock rebounds at 2.00 m/s horizontally to the left. A) Find the maximum distance that the block...
A 15 kg block is attached to a very light horizontal spring of force constant 5000.0...
A 15 kg block is attached to a very light horizontal spring of force constant 5000.0 N/m and is resting on a frictionless table. It is struck by a 3.00 kg stone at 8.00 m/s to the right, then rebounds at 2.00 m/s to the left. Calculate the change in mechanical energy during the collision.
Constants Part A problem into Find the maximum distance that the block will compress ↑ after...
Constants Part A problem into Find the maximum distance that the block will compress ↑ after the colision- spring after the and apply the appropriate conservation law to each part) (Figure 1),) S 3.00 kg stone traveling whereupon the stone rebounds at 2.00 m/s horizontally to the at 8.00 m/s to the right, Enter your answer using three significant figures X Incorrect; Try Again: 3 attempts remaining Figure 00kg 6.00 ms
Please help with the following problem A. 5.X kg block is attached to a massless spring...
Please help with the following problem
A. 5.X kg block is attached to a massless spring with the spring constant of 220 N/m and is at rest on a horizontal surface with the coefficient of kinetic friction of mu_k = 0.1. The block is struck by a 1.1 kg stone traveling horizontally at 5.5 m/s as shown in the figure. The stone rebounds back at 2 m/s. Note that the friction must be taken into account. Find: (a) the speed...
0.160 kg stone rests on a frictionless, horizontal surface. A bullet of mass 8.00 g ,...
0.160 kg stone rests on a frictionless, horizontal surface. A bullet of mass 8.00 g , traveling horizontally at 390 m/s , strikes the stone and rebounds horizontally at right angles to its original direction with a speed of 220 m/s . Part A:Compute the magnitude of the velocity of the stone after it is struck. PartB: Compute the direction of the velocity of the stone after it is struck. PartC: Is the collision perfectly elastic? yes or no
0.200 kg stone rests on a frictionless horizontal surface. A buffet of mass 8.60 g traveling horizontally at 360 m/s
0.200 kg stone rests on a frictionless horizontal surface. A buffet of mass 8.60 g traveling horizontally at 360 m/s. takes the stone and rebounds horizontally at right angles to its original direction with a speed of 250 m/s. Compute the magnitude of the scene affect it is struckCompute the direction of the velocity of the stone after it is struck Is the collision perfectly?
A 0.940 kg block is attached to a horizontal spring with spring constant 1600 N/m ....
A 0.940 kg block is attached to a horizontal spring with spring constant 1600 N/m . The block is at rest on a frictionless surface. A 8.00 g bullet is fired into the block, in the face opposite the spring, and sticks. The subsequent oscillations have an amplitude of 13.0 cm . A) Find the total energy of the oscillator. B) Find the speed of the bullet and block immediately after the collision. C) Find the speed of the bullet...
0.150 kg stone rests on a frictionless, horizontal surface. A bullet of mass 7.00 g ,...
0.150 kg stone rests on a frictionless, horizontal surface. A bullet of mass 7.00 g , traveling horizontally at 300 m/s , strikes the stone and rebounds horizontally at right angles to its original direction with a speed of 240 m/s . A)Compute the magnitude of the velocity of the stone after it is struck. B)Compute the direction of the velocity of the stone after it is struck. C)Is the collision perfectly elastic?
A 15.0 kg block is attached to a very light
horizontal spring of force constant 400 N/m and is
resting on a smooth horizontal table. (See the figure below .)
Suddenly it is struck by a 3.00 kg stone traveling
horizontally at 8.00 m/s to the right, whereupon the
stone rebounds at 2.00 m/s horizontally to the
left.
Find the maximum distance that the block will compress the
spring in m after the collision.
Constants Part A problem into Find the maximum distance that the block will compress ↑ after the colision- spring after the and apply the appropriate conservation law to each part) (Figure 1),) S 3.00 kg stone traveling whereupon the stone rebounds at 2.00 m/s horizontally to the at 8.00 m/s to the right, Enter your answer using three significant figures X Incorrect; Try Again: 3 attempts remaining Figure 00kg 6.00 ms
Please help with the following problem
A. 5.X kg block is attached to a massless spring with the spring constant of 220 N/m and is at rest on a horizontal surface with the coefficient of kinetic friction of mu_k = 0.1. The block is struck by a 1.1 kg stone traveling horizontally at 5.5 m/s as shown in the figure. The stone rebounds back at 2 m/s. Note that the friction must be taken into account. Find: (a) the speed...
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