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The table summarizes the known values for a completely elastic collision. Given the information, what is...
The table summarizes the known values for a completely elastic collision. Given the information, what is...
The table summarizes the known values for a completely elastic collision. Given the information, what is the mass of ball 27 Ball 1 Ball 2 4.3 ? mass (kg) initial velocity (m/s) final velocity (m/s) 2.0 -5.0 0.11 -6.91 7.49 kg
Ball 2 The table summarizes the known values for a completely elastic collision. Given the information,...
Ball 2 The table summarizes the known values for a completely elastic collision. Given the information, what is the mass of ball 2? mass (kg) initial velocity (m/s) final velocity (m/s) Ball 1 6.7 2.0 -6.18 -5.0 0.83 m2 = m2 = kg
Ball 1 Ball 2 The table summarizes the known values for a completely elastic collision. Given...
Ball 1 Ball 2 The table summarizes the known values for a completely elastic collision. Given the information, what is the mass of ball 2? 5.4 ? mass (kg) initial velocity (m/s) final velocity (m/s) 3.0 -4.0 -4.86 2.2 m2= kg
3.08 Conservation of Momentum Lab 1. Use the given collisions and data to calculate the initial...
3.08 Conservation of Momentum Lab 1. Use the given collisions and data to calculate the initial and final momentum for each collision. 2. Complete calculations totals in results table. Equations: p mv and2p Ep A. Elastic Collision between equal mass Momentum Final (kg"m/s) Momentum Initial (kg"m/s) Initial Velocity Final Velocity (m/s) Collision 1 Mass (kg) (m/s) Mass 1 2.0 +1.0 -1.0 Mass 2 2.0 -1.0 1.0 B. Elastic Collision between unequal mass: 2 Initial Velocity (m/s) Final Velocity (m/s) Momentum...
in a perfectly elastic collision what is the velocity of ball A if the original direction...
in a perfectly elastic collision what is the velocity of ball A if the original direction of ball A (m=20 kg) had a velocity of +3 m/s and ball B (m=30 kg) had an original velocity of -5 m/s?
1. A ball with a mass of 2.00 kg and an initial velocity of ?⃗1 =...
1. A ball with a mass of 2.00 kg and an initial velocity of ?⃗1 = 30.0m/s ?̂ collides with another ball of mass 1 kg which is initially sitting still. After the collision, the second mass has a velocity of ?⃗2f = 25.0m/s ?̂. What is the velocity of the first mass after the collision? 2. Two billiard balls with identical masses of 1 kg move toward each other. The initial velocity of ball 1 is +30 cm/s and...
Two billiard balls undergo an elastic collision as shown in the figure below. Ball 1 is...
Two billiard balls undergo an elastic collision as shown in the figure below. Ball 1 is initially traveling along x with a speed of 15 m/s, and ball 2 is at rest. After the collision, ball 1 moves away with a speed of 7.5 m/s at an angle θ-60°. (For the following questions, assume the mass of ball 1 is equal to the mass of ball 2.) Ball Ball 1 Ball 21/<θ li (a) Find the speed of ball 2...
reset Collision Carts pause 0.4 m/s 1.6 m/s Initial Velocity Initial Velocity 2 m/s O m/s...
reset Collision Carts pause 0.4 m/s 1.6 m/s Initial Velocity Initial Velocity 2 m/s O m/s Mass: 2 kg Mass: 3 kg Elastic Collision Inelastic Collision Explosion Again, set the initial blue cart velocity to 0 m/s. Now, set the red cart's mass value to be greater than the mass value of the blue car value. Run the simulation and record the mass and velocity values. Before Collision After Collision Vred = m/s Vred = m/s Vblue = m/s mRed...
please answer 3-5 and show each step 2 What will provide the "internal force in the experiment where both carts are...
please answer 3-5 and show each step
2 What will provide the "internal force in the experiment where both carts are intially stationary fc 3. During a perfectly inelastic collision, what % of kinetic energy is conserved if an object of mass 5.0 kg strikes a stationary mass of 20.0 kg? what % will be conserved ir the collision is elastlo instead (same two masses) 5120 4, consider the masses in question #3 and assume an elastic collision between them....
8. (9 pts.) A 4.00-kg ball, moving to the right at a velocity of +2.00 mis...
8. (9 pts.) A 4.00-kg ball, moving to the right at a velocity of +2.00 mis on a frictionless table, collides head-on with a stationary 6.50-kg ball. Find the final velocities of the balls if the collision is completely inelastic (the balls stick together). 9. (12 pts.) A 2.5-kg ball and a 5.0-kg ball have an elastic collision. Before the collision, the 2.5-kg ball was at rest and the other ball had a speed of 3.5 m/s. (a) What is...
The table summarizes the known values for a completely elastic collision. Given the information, what is the mass of ball 27 Ball 1 Ball 2 4.3 ? mass (kg) initial velocity (m/s) final velocity (m/s) 2.0 -5.0 0.11 -6.91 7.49 kg
Ball 2 The table summarizes the known values for a completely elastic collision. Given the information, what is the mass of ball 2? mass (kg) initial velocity (m/s) final velocity (m/s) Ball 1 6.7 2.0 -6.18 -5.0 0.83 m2 = m2 = kg
Ball 1 Ball 2 The table summarizes the known values for a completely elastic collision. Given the information, what is the mass of ball 2? 5.4 ? mass (kg) initial velocity (m/s) final velocity (m/s) 3.0 -4.0 -4.86 2.2 m2= kg
3.08 Conservation of Momentum Lab 1. Use the given collisions and data to calculate the initial and final momentum for each collision. 2. Complete calculations totals in results table. Equations: p mv and2p Ep A. Elastic Collision between equal mass Momentum Final (kg"m/s) Momentum Initial (kg"m/s) Initial Velocity Final Velocity (m/s) Collision 1 Mass (kg) (m/s) Mass 1 2.0 +1.0 -1.0 Mass 2 2.0 -1.0 1.0 B. Elastic Collision between unequal mass: 2 Initial Velocity (m/s) Final Velocity (m/s) Momentum...
Two billiard balls undergo an elastic collision as shown in the figure below. Ball 1 is initially traveling along x with a speed of 15 m/s, and ball 2 is at rest. After the collision, ball 1 moves away with a speed of 7.5 m/s at an angle θ-60°. (For the following questions, assume the mass of ball 1 is equal to the mass of ball 2.) Ball Ball 1 Ball 21/<θ li (a) Find the speed of ball 2...
reset Collision Carts pause 0.4 m/s 1.6 m/s Initial Velocity Initial Velocity 2 m/s O m/s Mass: 2 kg Mass: 3 kg Elastic Collision Inelastic Collision Explosion Again, set the initial blue cart velocity to 0 m/s. Now, set the red cart's mass value to be greater than the mass value of the blue car value. Run the simulation and record the mass and velocity values. Before Collision After Collision Vred = m/s Vred = m/s Vblue = m/s mRed...
please answer 3-5 and show each step
2 What will provide the "internal force in the experiment where both carts are intially stationary fc 3. During a perfectly inelastic collision, what % of kinetic energy is conserved if an object of mass 5.0 kg strikes a stationary mass of 20.0 kg? what % will be conserved ir the collision is elastlo instead (same two masses) 5120 4, consider the masses in question #3 and assume an elastic collision between them....
8. (9 pts.) A 4.00-kg ball, moving to the right at a velocity of +2.00 mis on a frictionless table, collides head-on with a stationary 6.50-kg ball. Find the final velocities of the balls if the collision is completely inelastic (the balls stick together). 9. (12 pts.) A 2.5-kg ball and a 5.0-kg ball have an elastic collision. Before the collision, the 2.5-kg ball was at rest and the other ball had a speed of 3.5 m/s. (a) What is...
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