A 0.250 kg toy car moving with a speed of 0.860 m/s collides with a wall. The figure shows the force exerted on the car by the wall over the course of the collision. What is the magnitude of the velocity, or final speed, of the car after the collision?

Please answer and solve the problem correctly please the answer isn’t 0.7 or 0.448 I was given these however the solution were wrong. So please check the solution you get. Thank you so much!!

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**Interactive Learning Module: Collision Dynamics** **Scenario:** A 0.250 kg toy car moving with a speed of 0.860 m/s collides with a wall. The figure shows the force exerted on the car by the wall over the course of the collision. **Task:** Determine the magnitude of the velocity, or final speed, of the car after the collision. **Graph Explanation:** - **Axes:** - **Horizontal Axis (Time s):** Ranges from 0 to 0.02 seconds. - **Vertical Axis (Force N):** Ranges from 0 to 45 Newtons. - **Plot:** - The graph shows a triangular distribution of force. - The force begins at 0 N at 0 seconds. - It increases linearly, reaching a peak force of 45 N at approximately 0.01 seconds. - After the peak, the force decreases linearly back to 0 N at 0.02 seconds. **Calculation Tool:** - An input box is provided for entering the car's final speed in meters per second (m/s) after the collision. - A "TOOLS" option with a multiplication factor of x10 is available for assistance. **Educational Objective:** Use the graph to calculate the impulse and apply the impulse-momentum theorem to find the final speed of the toy car.