What was the total impulse delivered to the object from x = 0 to x = 30 meters? What percent of the impulse was delivered in the last 10 meters?

What is the answer to these two questions. The mass of the object is 5.0 kg.

Transcribed Image Text:

What was the total impulse delivered to the object from \( x = 0 \) to \( x = 30 \) meters? [Input Box] What percent of the impulse was delivered in the last 10 meters? [Input Box] (Note: There are no graphs or diagrams associated with this text.)

Transcribed Image Text:

### Graph Analysis: Force vs Displacement **Graph Description:** The graph titled "Force vs Displacement" displays the relationship between force (in Newtons, N) and displacement (in meters, m). **Axes:** - The x-axis represents Displacement in meters, ranging from 0 to 30 m. - The y-axis represents Force in Newtons, ranging from 0 to 120 N. **Graph Plot:** - The graph consists of a piecewise linear plot with two segments: - **Segment 1 (0 to 20 m):** The force remains constant at 100 N as displacement increases from 0 to 20 m. This section is represented by a horizontal line with data points marked at equal intervals along the x-axis. - **Segment 2 (20 to 30 m):** After 20 m, the force decreases linearly from 100 N to 0 N as the displacement extends to 30 m. This section is indicated by a diagonal line descending from the point (20 m, 100 N) to the endpoint (30 m, 0 N). **Key Observation:** - There is a distinct change in the force at the 20 m mark, where the force transitions from constant to decreasing linearly. **Educational Context:** This graph is a useful educational tool for illustrating the concept of force variation with displacement, typically encountered in physics topics related to mechanics, such as work, energy, and material behavior under stress. The transition point at 20 meters highlights a scenario where conditions change, prompting a re-evaluation of the force applied.