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A 2.50 q bullet, traveling at a speed of 480 m/s, strikes the wooden block of...
Consult Multiple-Concept Example 8 for background pertinent to this problem. A 2.00-g bullet, traveling at a...
Consult Multiple-Concept Example 8 for background pertinent to this problem. A 2.00-g bullet, traveling at a speed of 416 m/s, strikes the wooden block of a ballistic pendulum, such as that in Figure 7.14. The block has a mass of 117 g. (a) Find the speed of the bullet/block combination immediately after the collision. (b) How high does the combination rise above its initial position?
Chapter 07, Problem 29 Consult Multiple-Concept Example 8 for background pertinent to this problem. A 2.11-9 bullet, tr...
Chapter 07, Problem 29 Consult Multiple-Concept Example 8 for background pertinent to this problem. A 2.11-9 bullet, traveling at a speed of 442 m/s, strikes the wooden block of a ballistic pendulum, such as that in Figure 7.14. The block has a mass of 283 g. (a) Find the speed of the bullet/block combination immediately after the collision. (b) How high does the combination rise above its initial position? (a) Number Units Units (b) Number
A bullet with some mass, m, and initial speed, vi, collides with a wooden block of...
A bullet with some mass, m, and initial speed, vi, collides with a wooden block of mass M that is hanging at the end of a light rope. The bullet imbeds itself in the block and the block and bullet swings upwards reaching a maximum height of h above the initial point of the collision. a. A scientist can measure the masses and the height, show that the initial speed can then be calculated from the following equation: vi= (m+M)/m×root...
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...
A bullet of mass 8 g is fired into a 1.2 kg ballistic pendulum (a block...
A bullet of mass 8 g is fired into a 1.2 kg ballistic pendulum (a block of wood acting as the pendulum bob of a thin metal arm attached to a low friction pivot point) that is initially at rest. The bullet exits the block of wood with a speed of 180 m/s and the wooden block swings from its lowest point to a maximum height of 9.2 cm above that location. Determine the velocity of the bullet before it...
The ballistic pendulum is a simple device—the pendulum part consists of a wooden block, which has...
The ballistic pendulum is a simple device—the pendulum part consists of a wooden block, which has a mass of 860. grams, hanging from a string. The block is initially at rest. However, a bullet with a mass of 18.0 grams is fired at the block. The bullet embeds itself in the block, and the bullet and block then oscillate back and forth on the string, pendulum style, after the collision. Just before impact with the block, the bullet's velocity is...
A 6.60 g bullet moving at 603 m/s strikes a 660 g wooden block at rest on a frictionless surface
A 6.60 g bullet moving at 603 m/s strikes a 660 g wooden block at rest on a frictionless surface. The bullet emerges, traveling in the same direction with its speed reduced to 457 m/s. (a) What is the resulting speed of the block? (b) What is the speed of the bullet-block center of mass?
A 4.90-g bullet moving at 578 m/s strikes a 885-g wooden block
A 4.90-g bullet moving at 578 m/s strikes a 885-g wooden block at rest on a frictionless surface. The bullet emerges, traveling in the same direction with its speed reduced to 379 m/s. (a) What is the resulting speed of the block? (b) What is the impulse transferred from the bullet to the block? ((a) 1.10 m/s,(b)0.975 N s)
A 15 gr bullet traveling at 500 m/s strikes the 5 kg wooden block and exists...
A 15 gr bullet traveling at 500 m/s strikes the 5 kg wooden block and exists the other side at 15 m/s as shown. The wooden block is initially at rest. Determine: a) The velocity of the wooden block just after the bullet exit it b) the average normal force on the wooden block if the bullets passes through it in 1.0 ms (millisecond) c) The time the block slides before it stops The coefficient of kinetic friction between the...
p-14981477 013 The bullet collides with the block. Then the bullet-block systom swings upward by height...
p-14981477 013 The bullet collides with the block. Then the bullet-block systom swings upward by height As shown in the figure above, a bullet of mass m strikes ballistic pendulum of mass M. After the collision, the bullet remains embedded in the bock. The center of mass of the pendulum nisee a vertical data (a) Let , be the kinetic enargy of the bullet-Block system just before the collision and Ky be the kinetic anergy of the nystem immediataly after...
Chapter 07, Problem 29 Consult Multiple-Concept Example 8 for background pertinent to this problem. A 2.11-9 bullet, traveling at a speed of 442 m/s, strikes the wooden block of a ballistic pendulum, such as that in Figure 7.14. The block has a mass of 283 g. (a) Find the speed of the bullet/block combination immediately after the collision. (b) How high does the combination rise above its initial position? (a) Number Units Units (b) Number
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...
A bullet of mass 8 g is fired into a 1.2 kg ballistic pendulum (a block of wood acting as the pendulum bob of a thin metal arm attached to a low friction pivot point) that is initially at rest. The bullet exits the block of wood with a speed of 180 m/s and the wooden block swings from its lowest point to a maximum height of 9.2 cm above that location. Determine the velocity of the bullet before it...
p-14981477 013 The bullet collides with the block. Then the bullet-block systom swings upward by height As shown in the figure above, a bullet of mass m strikes ballistic pendulum of mass M. After the collision, the bullet remains embedded in the bock. The center of mass of the pendulum nisee a vertical data (a) Let , be the kinetic enargy of the bullet-Block system just before the collision and Ky be the kinetic anergy of the nystem immediataly after...
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