A 70g bullet moving east at 40 m/s strikes a 1.2kg block suspended and becomes embedded...
A 70g bullet moving east at 40 m/s strikes a 1.2kg block suspended and becomes embedded in the block. How high will the bullet-block system rise above its original point?
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A 70g bullet moving east at 40 m/s strikes a 1.2kg block
suspended and becomes embedded...
D Question 5 3 pts The TWO MAIN energies involved in a ballistic pendulum experimentare: Kinetic...
D Question 5 3 pts The TWO MAIN energies involved in a ballistic pendulum experimentare: Kinetic energy and momentum energy Sound energy and potential energy Electrical energy and kinetic energy Kinetic energy and potential energy D Question 6 5 pts A 70g bullet moving east at 40 m/s strikes a 1.2kg block suspended and becomes embedded in the block. How high will the bullet-block system rise above its original point? 0.248 m 2.48 m 248 m 24.8m
A 20-g bullet flying horizontally becomes embedded in a 4-kg wooden block suspended from the ceiling....
A 20-g bullet flying horizontally becomes embedded in a 4-kg wooden block suspended from the ceiling. What was the speed of the bullet if the block swung 5 cm up from its initial level above ground?
A bullet of mass m = 40 g, moving horizontally with speed v, strikes a clay...
A bullet of mass m = 40 g, moving horizontally with speed v, strikes a clay block of mass M=1.33 kg that is hanging on a light inextensible string of length L=0.767. The bullet becomes embedded in the block, which was originally at rest. What is the smallest value of vv which would cause the block-on-a-string to swing around and execute a complete vertical circle?
A bullet of mass m = 40 g, moving horizontally with speed v, strikes a clay...
A bullet of mass m = 40 g, moving horizontally with speed v, strikes a clay block of mass M = 1.73 kg that is hanging on a light inextensible string of length = 0.774. The bullet becomes embedded in the block, which was originally at rest. What is the smallest value of v which would cause the block-on-a-string to swing around and execute a complete vertical circle? Please enter a numerical answer below. Accepted formats are numbers or "e"...
A 2.50 q bullet, traveling at a speed of 480 m/s, strikes the wooden block of...
A 2.50 q bullet, traveling at a speed of 480 m/s, strikes the wooden block of a ballistic pendulum, such as that in Figure 7.14. The block has a mass of 270 g. (a) (b) +m Figure 7.14 (a) Find the speed of the bullet/block combination immediately after the collision. m/s (b) How high does the combination rise above its initial position? m
In the figure here, a 14.8 g bullet moving directly upward at 1020 m/s strikes and...
In the figure here, a 14.8 g bullet moving directly upward at 1020 m/s strikes and passes through the center of mass of a 7.1 kg block initially at rest. The bullet emerges from the block moving directly upward at 590 m/s. To what maximum height does the block then rise above its initial position?
In the figure here, a 8.0 g bullet moving directly upward at 940 m/s strikes and...
In the figure here, a 8.0 g bullet moving directly upward at 940 m/s strikes and passes through the center of mass of a 6.7 kg block initially at rest. The bullet emerges from the block moving directly upward at 450 m/s. To what maximum height does the block then rise above its initial position?
1. A 12g bullet moving horizontally with a velocity of 1000 m/s strikes and remains in...
1. A 12g bullet moving horizontally with a velocity of 1000 m/s strikes and remains in a 3.0 kg block initially at rest on the middle of a 2 m wide table. The block, which is initially 80 cm above the floor, after traveling 1.00 m along the table top (frictional surface) strikes the floor a horizontal distance of 240 cm from its original position (140 m from the edge of the table). (i) Calculate the velocity of the block...
A bullet with mass m = 40 grams traveling at v = 400 m/s strikes a...
A bullet with mass m = 40 grams traveling at v = 400 m/s strikes a block of wood suspended from a ceiling with a massless cord. The collision last for 15 milliseconds, and after it is completed the bullet embeds itself into the block. Then, the combined system rises to a maximum height has its swings upward as shown. The mass of the wooden block is M=5.0kg and the length of the cord is L = 1.25 m. Calculate...
D Question 5 3 pts The TWO MAIN energies involved in a ballistic pendulum experimentare: Kinetic energy and momentum energy Sound energy and potential energy Electrical energy and kinetic energy Kinetic energy and potential energy D Question 6 5 pts A 70g bullet moving east at 40 m/s strikes a 1.2kg block suspended and becomes embedded in the block. How high will the bullet-block system rise above its original point? 0.248 m 2.48 m 248 m 24.8m
A 20-g bullet flying horizontally becomes embedded in a 4-kg wooden block suspended from the ceiling. What was the speed of the bullet if the block swung 5 cm up from its initial level above ground?
A bullet of mass m = 40 g, moving horizontally with speed v, strikes a clay block of mass M = 1.73 kg that is hanging on a light inextensible string of length = 0.774. The bullet becomes embedded in the block, which was originally at rest. What is the smallest value of v which would cause the block-on-a-string to swing around and execute a complete vertical circle? Please enter a numerical answer below. Accepted formats are numbers or "e"...
A 2.50 q bullet, traveling at a speed of 480 m/s, strikes the wooden block of a ballistic pendulum, such as that in Figure 7.14. The block has a mass of 270 g. (a) (b) +m Figure 7.14 (a) Find the speed of the bullet/block combination immediately after the collision. m/s (b) How high does the combination rise above its initial position? m
A bullet with mass m = 40 grams traveling at v = 400 m/s strikes a block of wood suspended from a ceiling with a massless cord. The collision last for 15 milliseconds, and after it is completed the bullet embeds itself into the block. Then, the combined system rises to a maximum height has its swings upward as shown. The mass of the wooden block is M=5.0kg and the length of the cord is L = 1.25 m. Calculate...
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