The experiment should be set up from here. Then use this table to run the next...
The experiment should be set up from here. Then use this table to run the next trials:
In this experiment, you will vary the parameters as shown in the table below:
|
Run |
Collision Type |
Mass Cart 1 |
Velocity Cart 1 |
Mass Cart 2 |
Velocity Cart 2 |
|
1 |
Elastic |
1 kg |
5 ms |
1 kg |
0 ms |
|
2 |
Elastic |
2 kg |
5 ms |
1 kg |
0 ms |
|
3 |
Elastic |
3 kg |
5 ms |
1 kg |
0 ms |
|
4 |
Elastic |
1 kg |
5 ms |
2 kg |
0 ms |
|
5 |
Elastic |
1 kg |
5 ms |
3 kg |
0 ms |
|
6 |
Elastic |
1 kg |
10 ms |
1 kg |
0 ms |
|
7 |
Inelastic |
1 kg |
5 ms |
1 kg |
0 ms |
|
8 |
Inelastic |
2 kg |
5 ms |
1 kg |
0 ms |
|
9 |
Inelastic |
3 kg |
5 ms |
1 kg |
0 ms |
|
10 |
Inelastic |
1 kg |
5 ms |
2 kg |
0 ms |
|
11 |
Inelastic |
1 kg |
5 ms |
3 kg |
0 ms |
|
12 |
Inelastic |
1 kg |
10 ms |
1 kg |
0 ms |
**Make a table with the following information: The type of collision, the momentum of cart 1 and 2 before and TOTAL, the momentum of cart 1 and 2 after and TOTAL as well as the ratio of total momentum after/before. (1-12 trial runs)
Data after collision:
| Run | Collision Type | Before | After | Ratio of total momentum after/before | ||||
| Momentum of Cart 1 (RED) | Momentum of Cart 2 (BLUE) | Total | Momentum of Cart 1 | Momentum of Cart 2 | Total | |||
| 1 | elastic | 5 | 1 | 6 | 1 | 5 | 6 | 1;1 |
| 2 | elastic | 10 | 1 | 11 | 3.4 | 6.7 | 10.1 | |
| 3 | elastic | 15 | 1 | 16 | 7.5 | 7.5 | 15 | |
| 4 | elastic | 5 | 2 | 7 | -1.7 | 6.6 | 4.9 | |
| 5 | elastic | 5 | 3 | 8 | -2.5 | 7.5 | 5 | |
| 6 | elastic | 10 | 1 | 11 | 1 | 10 | 11 | 1;1 |
| 7 | Inelastic | 5 | 1 | 6 | 2.5 | 2.5 | 5 | |
| 8 | Inelastic | 10 | 1 | 11 | 6.6 | 3.3 | 9.9 | |
| 9 | Inelastic | 15 | 1 | 16 | 11.4 | 3.8 | 15.2 | |
| 10 | Inelastic | 5 | 2 | 7 | 1.7 | 3.4 | 5.1 | |
| 11 | Inelastic | 5 | 3 | 8 | 1.3 | 3.9 | 5.2 | |
| 12 | Inelastic | 1 | 1 | 2 | 5 | 5 | 10 | 2;5 |
-
If energy or momentum is conserved, what value should the ratio be?
-
Is energy conserved in any of the trials? What does that tell you about the collision types?
-
Is momentum conserved in any of the runs?
Homework Answers
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The experiment should be set up from here. Then use this
table to run the next...
Mass of Cart 1: 0.263 kg Mass of Cart 2:0.273 kg Run # Velocity Cart 2...
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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...
i just need help answering the questions the stuff i put in red is data/ stuff...
i just need help answering the questions the stuff i put in
red is data/ stuff i already answered! please help
References Mailing AaBbDd AaBD be AaBbcc Heading? No Spacing Name Prediction: predict that the heavier the cart is it will have the most momentum and kinetic energy before the collision and after the collision because it has the most force. Becks Force-MastAcoletion, more mass equals more force and more force equals more energy Part I - Collision of a...
Anyone please help me solve the last part to find theortetical of V1 and V2 using the first page ...
anyone please help me solve the last part to find theortetical
of V1 and V2 using the first page type of collision
thank you
4. Cartl has a mass of ml and a velocity of v0. Cart2 has a mass of m2 and is stationary. Cartl then hits cart 2. After the collision, the velocity of cartl is vl and the velocity of cart2 is v2. In any collision, what happens to the m Write an equation for the momentum...
A 5.0-kg carl (cart 1) rolling cast on a level, frictionless track at 18.0 m/s, collides...
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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...
Name Date 9-10) A 165 pound student grudgingly climbs one flight of stairs (4.32 m) in...
Name Date 9-10) A 165 pound student grudgingly climbs one flight of stairs (4.32 m) in a time of 15.50 seconds to make it to a physics test. How much work has the student done in climbing steps, and what is the student's average power output? (4.45 N 1 lb) Work Power = 11-12) A collision occurred between 2 carts. Use the data below to complete the charts. Mass of cart 1 Mass of cart 2 Velocity of cart 2...
Name, Pre-lab Assignment- Experiment 11 Conservation of Momentum Using the Air Track 1o t becolision ser...
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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...
Collision Problem Elastic and Inelastic: Two carts are on a frictionless surface as depicted below. 5...
Collision Problem Elastic and Inelastic: Two carts are on a frictionless surface as depicted below. 5 m/s 20 kg 10 kg Frictionless surface Part 1. What is the common velocity just after impact if the two stick together, an inelastic collision? Give your answer to 3 significant digits. m/s Part 2. How much Kinetic energy is lost? Give your answer to 3 significant digits. J Part 3. If instead the collision is elastic, what is the velocity of the 10...
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...
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...
i just need help answering the questions the stuff i put in
red is data/ stuff i already answered! please help
References Mailing AaBbDd AaBD be AaBbcc Heading? No Spacing Name Prediction: predict that the heavier the cart is it will have the most momentum and kinetic energy before the collision and after the collision because it has the most force. Becks Force-MastAcoletion, more mass equals more force and more force equals more energy Part I - Collision of a...
anyone please help me solve the last part to find theortetical
of V1 and V2 using the first page type of collision
thank you
4. Cartl has a mass of ml and a velocity of v0. Cart2 has a mass of m2 and is stationary. Cartl then hits cart 2. After the collision, the velocity of cartl is vl and the velocity of cart2 is v2. In any collision, what happens to the m Write an equation for the momentum...
A 5.0-kg carl (cart 1) rolling cast on a level, frictionless track at 18.0 m/s, collides with a stationary 4.0-kg cart (cart 2). After the collision, cart 1 is still rolling cast, but now at a speed of 2.0 m/s. (a) Assuming the total momentum of the two-cart system is conserved, calculate the final velocity of the second cart. (b) Before the collision, the system's total kinetic energy was 810 J. Calculate the total kinetic energy of the two-cart system...
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Name Date 9-10) A 165 pound student grudgingly climbs one flight of stairs (4.32 m) in a time of 15.50 seconds to make it to a physics test. How much work has the student done in climbing steps, and what is the student's average power output? (4.45 N 1 lb) Work Power = 11-12) A collision occurred between 2 carts. Use the data below to complete the charts. Mass of cart 1 Mass of cart 2 Velocity of cart 2...
Name, Pre-lab Assignment- Experiment 11 Conservation of Momentum Using the Air Track 1o t becolision ser A,-200 ) is taveling at 3,6 m's and slider B Ms 210 g) is at rest a) (1 pò) What is the total momentum before collision? (Find the momentum of each slider before the collision and then add them together.) b). (I p) After the collision. presume that the sliders move in the same direction with vv m's and vy 3.05 m/s. What is...
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...
Collision Problem Elastic and Inelastic: Two carts are on a frictionless surface as depicted below. 5 m/s 20 kg 10 kg Frictionless surface Part 1. What is the common velocity just after impact if the two stick together, an inelastic collision? Give your answer to 3 significant digits. m/s Part 2. How much Kinetic energy is lost? Give your answer to 3 significant digits. J Part 3. If instead the collision is elastic, what is the velocity of the 10...
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