Part 3: Cart 1 Moving with Added Mass, Cart 2 at Rest Step 1) Using the simulation, increase the mass of Cart 1 and assure that Cart 2 is initially at rest. Step 2) Determine if linear momentum was conserved. Step 3) Fill in Table 3. Table 3 Cart I mass (kg) mass (kg) (m/s) (m/s) (m/s) | (m/s) | (kg-m/s) | (kg-m/s) Cart 2 V1, i V2, i V1,f V2,f pi 0.50 Part 4: Cart 1 and Cart 2 Moving with the Same Velocities Step 1) Using the simulation, the collision is now inelastic. Step 2) Set the initial velocities of each cart so that their velocities are equal in magnitude. Step 3) Determine if linear momentum was conserved. Step 4) Fill in Table 4. Table 4 Cart 1 mass (kg) mass (kg) (m/s) (m/s) | (m/s) | (m/s) | (kg-m/s) | (kgm/s) Cart 2 V1, i V2, i V1,f V2, f pi 0.50 For all parts, calculate the initial and final momentum and explain whether or not the conservation of momentum is validated.

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O Passaic County Community Colle x Bb Laboratory – PHYSICS I O PY 120 Laboratory Manual.pdf X A pccc.blackboard.com/bbcswebdav/pid-1906928-dt-content-rid-12189490_1/courses/21SP-PY-120-R01/PY%20120%20Laboratory%20Manual.pdf PY 120 Laboratory Manual.pdf 39 / 55 | + | E O 90% Dynamic Dynamic 37 Cart 1 Cart 2 Track Supports Photogate Photogate Timer Timer Table Figure 1. Part 1 experimental setup of the dynamic carts, photogates, and track. Part 1: Cart 1 Moving, Cart 2 at Rest For Part 1, prior to the elastic collision, Cart 1 will be pushed along the track and move with some initial velocity. Cart 2 will initially be as rest. After the collision, Cart 1 will be moving with a new velocity and Cart 2 will now have a non-zero velocity. Each cart has the same mass. 38 Step 1) Visit the website: https://www.walter-fendt.de/html5/phen/collision_en.htm This simulation will be used for all parts of this lab. Step 2) Set the mass of each cart to 0.50 kg. Step 3) Set the initial velocity of Cart 1 and Cart 2. These values are your choice. Step 4) Click the Start button. Make sure that Cart 1 collides into Cart 2. Step 5) Determine if linear momentum was conserved. Step 6) Fill in Table 1. 39 Table 1 Cart 1 Cart 2 V1, i V2, i Vi, f V2, f pi pr mass (kg) (m/s) (m/s) (m/s) (m/s) (kg-m/s) (kg-m/s) 0.50 0.50 For all parts, calculate the initial and final momentum and explain whether or not the conservation of momentum is validated. 40 Part 2: Cart 1 Moving, Cart 2 Moving 7:19 PM O Type here to search O O 4) 4/1/2021

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Part 3: Cart 1 Moving with Added Mass, Cart 2 at Rest Step 1) Using the simulation, increase the mass of Cart 1 and assure that Cart 2 is initially at rest. Step 2) Determine if linear momentum was conserved. Step 3) Fill in Table 3. Table 3 Cart 1 Cart 2 V1, i V2, i V1, f V2, f pi pr mass (kg) mass (kg) (m/s) (m/s) (m/s) (m/s) (kg-m/s) | (kg-m/s) 0.50 Part 4: Cart 1 and Cart 2 Moving with the Same Velocities Step 1) Using the simulation, the collision is now inelastic. Step 2) Set the initial velocities of each cart so that their velocities are equal in magnitude. Step 3) Determine if linear momentum was conserved. Step 4) Fill in Table 4. Table 4 Cart 1 mass (kg) mass (kg) 0.50 Cart 2 V1, i V2, i V1, f V2, f pi pr (m/s) (m/s) (m/s) (m/s) | (kg-m/s) | (kg-m/s) For all parts, calculate the initial and final momentum and explain whether or not the conservation of momentum is validated.