(B) Set up the problem with knowns, unknowns, and equations that can be solved to get the projectile's muzzle speed in the field. C) Calculate the projectile's speed in the field, first with variables and then solve for the value. (D) If you want the projectile velocity in the field Unield to be 98% of the velocity in the lab Unlab, or Up.field 0.98 Ub.lab, what will the mass of your cannon me need to be?
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You have an internship working for the National Park Service. They start you off in the laborator...
You work for the National Park Service testing a small cannon used to prevent avalanches by...
You work for the National Park Service testing a small cannon used to prevent avalanches by shooting down snow overhanging the sides of mountains. In order to determine the range of the cannon, it is necessary to know the speed with which the projectile leaves the cannon (muzzle speed), relative to the ground. The cannon you are testing has a weight of 517 kg and shoots a 21-kg projectile. During lab tests where the cannon is held and cannot move,...
The cannon you are testing weighs 260 kg and shoots a 15 kg projectile. During the...
The cannon you are testing weighs 260 kg and shoots a 15 kg projectile. During the lab tests the cannon is held horizontal in a rigid support so that it cannot move. Under those conditions, you use video analysis of the projectile to determine that the muzzle speed is 300 m/s. When fired in the field, the cannon is not rigidly attached to the ground, but it is free to move (recoil) when it is fired. There are ropes attached...
A cannon of mass 5.93 x 103 kg is rigidly bolted to the earth so it...
A cannon of mass 5.93 x 103 kg is rigidly bolted to the earth so it can recolil only by a negligible amount. The cannon fires a 80.7kg shell horizontally with an initial velocity of 508 m/s. Suppose the cannon is then unbolted from the earth, and no external force hinders its recoil. What would be the velocity of a shell fired from this loose cannon? (Hint: In both cases assume that the burning gunpowder imparts the same kinetic energy...
A cannon of mass 5.60 ✕ 10^3 kg is rigidly bolted to the earth so it...
A cannon of mass 5.60 ✕ 10^3 kg is rigidly bolted to the earth so it can recoil only by a negligible amount. The cannon fires an 82.5-kg shell horizontally with an initial velocity of +550 m/s. Suppose the cannon is then unbolted from the earth, and no external force hinders its recoil. What would be the velocity of an identical shell fired by this loose cannon? (Hint: In both cases assume that the burning gunpowder imparts the same kinetic...
Need help With Analysis questions. Ballistic Pendulum Lab In this lab, you will explore conservat...
Need help With Analysis questions.
Ballistic Pendulum Lab In this lab, you will explore
conservation of Energy and Momentum in an inelastic collision
between a projectile and a cardboard box suspended from a string.
In particular, you will see that the transfer of linear momentum is
easily accounted for in an inelastic collision, but the transfer of
kinetic energy is not easy to measure directly. This is because
Kinetic Energy in collisions transfers to vibrational, acoustic,
and potential energy. Once...
Virtual Lab: Ballistic Pendulum Introduction The ballistic pendulum was invented by Benjamin Robins in 1742 as...
Virtual Lab: Ballistic Pendulum Introduction The ballistic pendulum was invented by Benjamin Robins in 1742 as a device mainly designed to accurately measure the speed of fast traveling projectiles (bullets or cannon balls), relying only on measurements of mass and distance, without measurements of time. Knowing the mass of the projectile, estimates of its momentum and kinetic energy could also be made. Although the ballistic- pendulum method has lost its practical importance to more modern methodologies, it was used for...
From University Physics, 5th edition. Please help clarify this problem, and show work if you can!...
From University Physics, 5th edition.
Please help clarify this problem, and show work if you can!
:)
(18 points) A 2.00 kg block is moving mass 3.00 kg is moving to the left a 2.00 kg block is moving to the right with a speed of 1.50 m/s and a second block of U kg is moving to the left and towards the other block at a speed of 1.75 m/s. An ideal Spring is attached to the front of...
HELLO! Please answer all the questions! don't leave any of them out! Thanks! Answer all the...
HELLO! Please answer all the questions! don't leave
any of them out! Thanks!
Answer all the questions asked please!
om 8. A ball of silly putty hits and sticks to a bowling ball that was initially at rest. After the collision, the total kinetic energy of the bowling ball and silly! putty is O (A) less than the kinetic energy of the silly putty before the collision O (B) more than the kinetic energy of the silly putty before the...
was trying work on this homework but can’t seem to get it right the ball and...
was
trying work on this homework but can’t seem to get it right
the ball and the pendulum cup have the same velocity after the collision. As is the case with any collision, total momentum is conserved (unchanged). Using conservation of momentum, write down an equation for Vealefore in terms of the velocity of the hall together with the pendmcu ( d the mass of the al and that of the cup (meup). ball before= Using conservation of energy between...
OAL Combine the concepts of conservation of energy and conservation of momentum in inelastic collisions. In...
OAL Combine the concepts of conservation of energy and conservation of momentum in inelastic collisions. In figure a, a bullet and a wooden block are shown in two configurations. In the first configuration, the block, labeled m2, hangs vertically from a ceiling. A bullet, labeled m1, approaches the block horizontally from the left. A rightward arrow points from the bullet and is labeled vector v1i. A rightward arrow, shorter than the first, points from the block and is labeled vector...
Need help With Analysis questions.
Ballistic Pendulum Lab In this lab, you will explore
conservation of Energy and Momentum in an inelastic collision
between a projectile and a cardboard box suspended from a string.
In particular, you will see that the transfer of linear momentum is
easily accounted for in an inelastic collision, but the transfer of
kinetic energy is not easy to measure directly. This is because
Kinetic Energy in collisions transfers to vibrational, acoustic,
and potential energy. Once...
Virtual Lab: Ballistic Pendulum Introduction The ballistic pendulum was invented by Benjamin Robins in 1742 as a device mainly designed to accurately measure the speed of fast traveling projectiles (bullets or cannon balls), relying only on measurements of mass and distance, without measurements of time. Knowing the mass of the projectile, estimates of its momentum and kinetic energy could also be made. Although the ballistic- pendulum method has lost its practical importance to more modern methodologies, it was used for...
From University Physics, 5th edition.
Please help clarify this problem, and show work if you can!
:)
(18 points) A 2.00 kg block is moving mass 3.00 kg is moving to the left a 2.00 kg block is moving to the right with a speed of 1.50 m/s and a second block of U kg is moving to the left and towards the other block at a speed of 1.75 m/s. An ideal Spring is attached to the front of...
HELLO! Please answer all the questions! don't leave
any of them out! Thanks!
Answer all the questions asked please!
om 8. A ball of silly putty hits and sticks to a bowling ball that was initially at rest. After the collision, the total kinetic energy of the bowling ball and silly! putty is O (A) less than the kinetic energy of the silly putty before the collision O (B) more than the kinetic energy of the silly putty before the...
was
trying work on this homework but can’t seem to get it right
the ball and the pendulum cup have the same velocity after the collision. As is the case with any collision, total momentum is conserved (unchanged). Using conservation of momentum, write down an equation for Vealefore in terms of the velocity of the hall together with the pendmcu ( d the mass of the al and that of the cup (meup). ball before= Using conservation of energy between...
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Thanks so much for the help! Please show all work.
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