II. Momentum of obječt A. Experiment 1 is conducted with two gliders, A, and B1, on a level, frictionless track. The mass of glider B, is greater than that of glider A¡ (i.e., mB, > m,). In experiment 1, glider A, moves toward glider B, which is initially at rest. Magnete attached to the gliders so that the gliders repel each other without touching. After the collision, glider A, has reversed direction as shown below. After collision Before collision %3D Experiment 1 1onib A, n B, B, A, 1. In the spaces below, draw vectors to represent the momentum of glider A,, glider B . system S, (the system of both gliders) both before and after the collision. Your vect abati need only be qualitatively correct (e.g., any vectors that have the same magnitude should be the same length, and a vector that has a greater magnitude should be longer). Momentum of glider A, Momentum of glider B, Momentum of system S, Initial Final

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**Momentum of Objects in a Collision** ### II. Momentum of objects in a collision A. Experiment 1 is conducted with two gliders, \( A_1 \) and \( B_1 \), on a level, frictionless track. The mass of glider \( B_1 \) is greater than that of glider \( A_1 \) (i.e., \( m_{B_1} > m_{A_1} \)). In experiment 1, glider \( A_1 \) moves toward glider \( B_1 \), which is initially at rest. Magnets are attached to the gliders so that the gliders repel each other without touching. After the collision, glider \( A_1 \) has reversed direction as shown below. **Before Collision** \[ \vec{v}_{A_{1i}} \rightarrow A_1 \quad \quad B_1 \quad (\vec{v}_{B_{1i}} = 0) \] **After Collision** \[ A_1 \leftarrow \vec{v}_{A_{1f}} \quad \quad \vec{v}_{B_{1f}} \rightarrow B_1 \] **Experiment 1 Diagram:** - **Before collision:** Glider \( A_1 \) is moving toward glider \( B_1 \) which is at rest. - **After collision:** Glider \( A_1 \) has reversed direction and glider \( B_1 \) is now moving in the direction \( A_1 \) was initially moving. ### Questions 1. **In the spaces below, draw vectors to represent the momentum of glider \( A_1 \), glider \( B_1 \), and system \( S_1 \) (the system of both gliders) both before and after the collision. Your vectors need only be qualitatively correct (e.g., any vectors that have the same magnitude should be the same length, and a vector that has a greater magnitude should be longer).** **Table:** | Momentum of glider \( A_1 \) | Momentum of glider \( B_1 \) | Momentum of system \( S_1 \) | |------------------------------|------------------------------|------------------------------| | Initial | | | | Final | | | 2. **Is the magnitude of the final momentum of glider \( B