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0 m/s 2 m/s Initial Velocity Initial Velocity 0 O m/s 2 m/s Mass: 2 kg...
2.5 m/s2.5 m/s Initial Velocity Initial Velocity 0 1 m/s 0 3 m/s Mass: 1 kg...
2.5 m/s2.5 m/s Initial Velocity Initial Velocity 0 1 m/s 0 3 m/s Mass: 1 kg Mass: 3 kg Inelastic Case 2: Blue Cart Moving Slower than the Red Cart Set the initial blue cart velocity to less than the red cart velocity. Position the blue cart in the middle of the track. Use different mass values. Run the simulation and record the mass and velocity values. Before Collision After Collision m/s m/s m/s mRed kg m Blue kg Table...
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...
Explosion 2: Red Cart Less Massive than the Blue Cart <IMPORTANT>Set the initial velocities of both...
Explosion 2: Red Cart Less Massive than the Blue Cart <IMPORTANT>Set the initial velocities of both carts to 0 m/s. Set the mass of the red cart to be the smaller mass. Run the simulation and record the mass and velocity values.</IMPORTANT> After Explosion Before Explosion m/s y = At Rest. m Blue AMomentum mRed _kg Use mass and velocity values to complete the following momentum table. Before Explosion After Explosion _kg x kg x Red Cart kg•m/s kg•m/s m/s...
Let the red cart have a mass of 1 kg and an initial velocity of +10...
Let the red cart have a mass of 1 kg and an initial velocity of +10 m/s, and the blue cart have a mass of 3 kg and an initial velocity of -10 m/s. If the two carts experience an Elastic Collision, what will be the final velocity of the blue cart? Note: Your answer is assumed to be reduced to the highest power possible. Your Answer: x10 Answer units Question 5 (0.2 points) In which type of collision is...
Let the red cart have a mass of 1 kg and an initial velocity of +10...
Let the red cart have a mass of 1 kg and an initial velocity of +10 m/s, and the blue cart have a mass of 3 kg and an initial velocity of -10 m/s. If the two carts experience a Perfectly Inelastic Collision, what will be the final velocity of the blue cart?
PART 4: Collisions where the carts make contact but do not stick together 0.250 kg 0.250...
PART 4: Collisions where the carts make contact but do not stick together 0.250 kg 0.250 kg 0.487 m/s 0.090 m/s Trial 7: In this part we will have the magnets of the blue Both carts same mass cart face the Velcro of the red cart. Because there are no magnets on the Velcro side of the red cart, we'll end up with the plastic of the blue cart hitting Total mass mb of blue cart the Velcro of the...
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...
Mass of Cart 1: 0.263 kg Mass of Cart 2:0.273 kg Run # Velocity Cart 2...
Mass of Cart 1: 0.263 kg Mass of Cart 2:0.273 kg Run # Velocity Cart 2 before collision (m/s) Bumper Type Magnetic Magnetic Hook-n-pile Hook-n-pile Both Both Velocity Cart 1 before collision (m/s) 0.3940 0.2142 0.4397 0.3251 0.4282 0.3483 1 2 3 4 5 6 Velocity Cart 1 before collision (m/s) -0.01857 0.000335 0.2053 0.1548 0.07012 0.06005 Velocity Cart 2 after collision (m/s) 0.3728 0.2043 0.2010 0.1557 0.2982 0.2527 0 Run # Momentum Momentum Momentum Momentum 1 before 2 before...
A cart of mass 0.20 kg starts moving at velocity 3.0 m/s collides inelastically with an...
A cart of mass 0.20 kg starts moving at velocity 3.0 m/s collides inelastically with an initially stationary cart of mass 0.40 kg. (A) If the carts stick together, what is their combined velocity immediately after the collision? (B) How much kinetic energy is lost in the collision?
9.00 m/s (Cright) collides with 1.An object of mass 10.o kg moving with a velocity ofo...
9.00 m/s (Cright) collides with 1.An object of mass 10.o kg moving with a velocity ofo another object of mass 20.0 kg moving at 6.00 m/ After the collision the 10.0 kg object continues to move sa direcei collides w What is the velocity of the 20.0 kg object after this collisio a velocityt s in the same s to move wi r this collision? 6. Show that the collision in questions 1 is elastic; that is find total KE...
2.5 m/s2.5 m/s Initial Velocity Initial Velocity 0 1 m/s 0 3 m/s Mass: 1 kg Mass: 3 kg Inelastic Case 2: Blue Cart Moving Slower than the Red Cart Set the initial blue cart velocity to less than the red cart velocity. Position the blue cart in the middle of the track. Use different mass values. Run the simulation and record the mass and velocity values. Before Collision After Collision m/s m/s m/s mRed kg m Blue kg Table...
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...
Explosion 2: Red Cart Less Massive than the Blue Cart <IMPORTANT>Set the initial velocities of both carts to 0 m/s. Set the mass of the red cart to be the smaller mass. Run the simulation and record the mass and velocity values.</IMPORTANT> After Explosion Before Explosion m/s y = At Rest. m Blue AMomentum mRed _kg Use mass and velocity values to complete the following momentum table. Before Explosion After Explosion _kg x kg x Red Cart kg•m/s kg•m/s m/s...
Let the red cart have a mass of 1 kg and an initial velocity of +10 m/s, and the blue cart have a mass of 3 kg and an initial velocity of -10 m/s. If the two carts experience an Elastic Collision, what will be the final velocity of the blue cart? Note: Your answer is assumed to be reduced to the highest power possible. Your Answer: x10 Answer units Question 5 (0.2 points) In which type of collision is...
Let the red cart have a mass of 1 kg and an initial velocity of +10 m/s, and the blue cart have a mass of 3 kg and an initial velocity of -10 m/s. If the two carts experience a Perfectly Inelastic Collision, what will be the final velocity of the blue cart?
PART 4: Collisions where the carts make contact but do not stick together 0.250 kg 0.250 kg 0.487 m/s 0.090 m/s Trial 7: In this part we will have the magnets of the blue Both carts same mass cart face the Velcro of the red cart. Because there are no magnets on the Velcro side of the red cart, we'll end up with the plastic of the blue cart hitting Total mass mb of blue cart the Velcro of the...
Mass of Cart 1: 0.263 kg Mass of Cart 2:0.273 kg Run # Velocity Cart 2 before collision (m/s) Bumper Type Magnetic Magnetic Hook-n-pile Hook-n-pile Both Both Velocity Cart 1 before collision (m/s) 0.3940 0.2142 0.4397 0.3251 0.4282 0.3483 1 2 3 4 5 6 Velocity Cart 1 before collision (m/s) -0.01857 0.000335 0.2053 0.1548 0.07012 0.06005 Velocity Cart 2 after collision (m/s) 0.3728 0.2043 0.2010 0.1557 0.2982 0.2527 0 Run # Momentum Momentum Momentum Momentum 1 before 2 before...
9.00 m/s (Cright) collides with 1.An object of mass 10.o kg moving with a velocity ofo another object of mass 20.0 kg moving at 6.00 m/ After the collision the 10.0 kg object continues to move sa direcei collides w What is the velocity of the 20.0 kg object after this collisio a velocityt s in the same s to move wi r this collision? 6. Show that the collision in questions 1 is elastic; that is find total KE...
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