The table gives mass and speed data for the two objects in the figure. Find (a) the kinetic energy and the magnitude of the momentum for object A and (b) the kinetic energy and the magnitude of the momentum for object B.

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### Elastic Collisions: Understanding Mass and Velocity In an analysis of elastic collisions, we often examine the relationship between the mass and velocity of objects before and after they collide. Given below is a scenario involving two objects, A and B, with different masses and initial velocities. **Table of Masses and Speeds for Objects A and B** | Object | Mass | Speed | |-----------|-------------|-----------| | Object A | 1.70 kg | 6.80 m/s | | Object B | 6.80 kg | 1.70 m/s | **Description of Diagram** In the accompanying diagram: - **Object A** is depicted as a yellow sphere with a mass of 1.70 kg moving to the right with a speed of 6.80 m/s. - **Object B** is depicted as a blue sphere with a mass of 6.80 kg moving to the right with a speed of 1.70 m/s. Both objects are shown with arrows indicating the direction of their velocities, moving to the right. The colors and labels (A and B) help differentiate between the two objects for clarity. By examining cases like this, students can better understand how momentum and kinetic energy are conserved during elastic collisions. Analyzing such examples allows for a deeper comprehension of fundamental physics concepts such as the conservation of momentum and energy, which are crucial for understanding a wide range of physical phenomena.