Question 1: In the ballistic pendulum experiment, the velocity of the projectile was measured and recorded...
Question 1: In the ballistic pendulum experiment, the velocity of the projectile was measured and recorded (vo = 6.0 m/s). The mass of the projectile was 13.0 g and the ballistic pendulum mass was 92.0 g. After the projectile is fired, it hits the ballistic pendulum, and both moved with velocity. Calculate the velocity of the projectile and the pendulum after the collision
Question 2: In the ballistic pendulum experiment, the velocity of the projectile was measured and recorded (vo = 3.0 m/s). The mass of the projectile was 12.0 g and the ballistic pendulum mass was 82.0 g. After the projectile is fired, it hits the ballistic pendulum, and both moved with velocity. Calculate the maximum height that the ballistic pendulum (with projectile) reached after the collision.
Question 3: In the ballistic pendulum experiment, the velocity of the projectile was measured and recorded (vo = 5.0 m/s). The mass of the projectile was 11.0 g and the ballistic pendulum mass was 143.0 g. After the projectile is fired, it hits the ballistic pendulum, and both moved with velocity. Calculate the difference in kinetic energy before and after the collision.
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Question 1: In the ballistic pendulum
experiment, the velocity of the projectile was measured and
recorded...
In the ballistic pendulum experiment (A.K.A conservation of momentum & energy), the velocity of the projectile...
In the ballistic pendulum experiment (A.K.A conservation of momentum & energy), the velocity of the projectile was measured and recorded (vo = 5 m/s). The mass of the projectile was 12 g and the ballistic pendulum mass was 148 g. After the projectile is fired, it hits the ballistic pendulum, and both moved with velocity. Calculate the velocity LaTeX: vv of the projectile and the pendulum after the collision.
Consider a projectile (0.1 kg) fired into a ballistic pendulum (0.5 kg, r_cm = 0.3 m),...
Consider a projectile (0.1 kg) fired into a ballistic pendulum (0.5 kg, r_cm = 0.3 m), the resulting collision is inelastic (see Figure 2) and the pendulum swings to a maximum angular deflection of 20 degree. Assume r_cm is the same with or without the projectile attached. What is the maximum PE for the pendulum? Determine the maximum KE for the pendulum and use this value to calculate the initial velocity of the projectile-pendulum just after the collision. Apply the...
Part b & c Name Date Data Sheet Experiment 21: Ballistic Pendulum A. The Ballistic Pendulum...
Part b & c
Name Date Data Sheet Experiment 21: Ballistic Pendulum A. The Ballistic Pendulum Mass of ball m- Mass of pendulum M,-0.23 k Trial h2 (m) h1 (m) 0 0:142 Average heighthORSm Initial velocity of ball2ms 30 3 B. The Energy Lost in a Perfectly Inelastic Collision mb 0.0699 Final velocity of ball and pendalam aer the collision m/s Initial Kinétic Energy (J) ie Eaergy ) Kinetic Energy Lost AB a) C.The Determination of the Velocity of the...
3. The ballistic pendulum is a device used to measure the speed of a projectile, such...
3. The ballistic pendulum is a device used to measure the speed of a projectile, such as a bullet. The projectile, of mass m, is fired into a large block of mass M, which is suspended like a pendulum. As a result of the collision, the pendulum and projectile together swing up to a maximum height h. Determine the relationship between the initial horizontal speed of the projectile, v, and the maximum heighth
I put the theory on first page. 7-Ballistic Pendulum Data Studio File: "Ballistie Pendlds" Equipment List...
I put the theory
on first page.
7-Ballistic Pendulum Data Studio File: "Ballistie Pendlds" Equipment List Qty Items PASCO Interface Rotary Motion Sensor Rod, 45 em Ballistic Pendulum 1Universal Table Clamp Introduction A ballistic pendulum is used to determine the muzzle velocity of a ball shot out of a Projectile Launcher. The laws of conservation of momentum and conservation of energy are used to derive the equation for the muzzle velocity. Theory The ballistic pendulum has historically been used to...
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...
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...
In a ballistic pendulum experiment, a small marble is fired into a cup attached to the...
In a ballistic pendulum experiment, a small marble is fired into a cup attached to the end of a pendulum. If the mass of the marble is 0.0305 kg and the mass of the pendulum is 0.250 kg, how high h will the pendulum swing if the marble has an initial speed of 5.55 m/s? Assume that the mass of the pendulum is concentrated at its end so that linear momentum is conserved during this collision. h = m
In a ballistic pendulum experiment, a small marble is fired into a cup attached to the...
In a ballistic pendulum experiment, a small marble is fired into a cup attached to the end of a pendulum. If the mass of the marble is 0.0255 kg and the mass of the pendulum is 0.250 kg, how high h will the pendulum swing if the marble has an initial speed of 5.15 m/s? Assume that the mass of the pendulum is concentrated at its end so that linear momentum is conserved during this collision h = m
In a ballistic pendulum experiment, a small marble is fired into a cup attached to the...
In a ballistic pendulum experiment, a small marble is fired into a cup attached to the end of a pendulum. If the mass of the marble is 0.0245 kg and the mass of the pendulum is 0.250 kg, how high h will the pendulum swing if the marble has an initial speed of 5.25 m/s? Assume that the mass of the pendulum is concentrated at its end so that linear momentum is conserved during this collision. h = m
Consider a projectile (0.1 kg) fired into a ballistic pendulum (0.5 kg, r_cm = 0.3 m), the resulting collision is inelastic (see Figure 2) and the pendulum swings to a maximum angular deflection of 20 degree. Assume r_cm is the same with or without the projectile attached. What is the maximum PE for the pendulum? Determine the maximum KE for the pendulum and use this value to calculate the initial velocity of the projectile-pendulum just after the collision. Apply the...
Part b & c
Name Date Data Sheet Experiment 21: Ballistic Pendulum A. The Ballistic Pendulum Mass of ball m- Mass of pendulum M,-0.23 k Trial h2 (m) h1 (m) 0 0:142 Average heighthORSm Initial velocity of ball2ms 30 3 B. The Energy Lost in a Perfectly Inelastic Collision mb 0.0699 Final velocity of ball and pendalam aer the collision m/s Initial Kinétic Energy (J) ie Eaergy ) Kinetic Energy Lost AB a) C.The Determination of the Velocity of the...
3. The ballistic pendulum is a device used to measure the speed of a projectile, such as a bullet. The projectile, of mass m, is fired into a large block of mass M, which is suspended like a pendulum. As a result of the collision, the pendulum and projectile together swing up to a maximum height h. Determine the relationship between the initial horizontal speed of the projectile, v, and the maximum heighth
I put the theory
on first page.
7-Ballistic Pendulum Data Studio File: "Ballistie Pendlds" Equipment List Qty Items PASCO Interface Rotary Motion Sensor Rod, 45 em Ballistic Pendulum 1Universal Table Clamp Introduction A ballistic pendulum is used to determine the muzzle velocity of a ball shot out of a Projectile Launcher. The laws of conservation of momentum and conservation of energy are used to derive the equation for the muzzle velocity. Theory The ballistic pendulum has historically been used to...
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...
In a ballistic pendulum experiment, a small marble is fired into a cup attached to the end of a pendulum. If the mass of the marble is 0.0305 kg and the mass of the pendulum is 0.250 kg, how high h will the pendulum swing if the marble has an initial speed of 5.55 m/s? Assume that the mass of the pendulum is concentrated at its end so that linear momentum is conserved during this collision. h = m
In a ballistic pendulum experiment, a small marble is fired into a cup attached to the end of a pendulum. If the mass of the marble is 0.0255 kg and the mass of the pendulum is 0.250 kg, how high h will the pendulum swing if the marble has an initial speed of 5.15 m/s? Assume that the mass of the pendulum is concentrated at its end so that linear momentum is conserved during this collision h = m
In a ballistic pendulum experiment, a small marble is fired into a cup attached to the end of a pendulum. If the mass of the marble is 0.0245 kg and the mass of the pendulum is 0.250 kg, how high h will the pendulum swing if the marble has an initial speed of 5.25 m/s? Assume that the mass of the pendulum is concentrated at its end so that linear momentum is conserved during this collision. h = m
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