Graph below represents the force on a 12 kg air mass as it passes through a jet engine.  Immediately after entering the engine, the force is 9,039 N, and the force tapers linearly to zero once the air reaches the back of the engine 2.3 m later.  If the air enters the engine with velocity 252 m/s, what is its exit velocity?

(Please answer to the fourth decimal place - i.e 14.3225)

Transcribed Image Text:

The image depicts a graph demonstrating a linear relationship between force (F) in newtons (N) and displacement (x) in meters (m). The graph is a straight line with a negative slope, indicating that force decreases uniformly as displacement increases. **Graph Details:** - **Axes:** - The vertical axis (y-axis) represents force (F) measured in newtons (N). - The horizontal axis (x-axis) represents displacement (x) measured in meters (m). - **Line Characteristics:** - The line begins at a higher point on the y-axis and descends diagonally to the right, stopping at the x-axis. - This suggests that the force decreases steadily as the displacement increases, likely representing a scenario of negative work or energy dissipation. - **Gridlines:** - The graph includes a grid that helps in identifying specific values of force and displacement. The straight-line graph is commonly used to represent Hooke's Law scenarios in physics, where force is inversely proportional to displacement within the elastic limit of a material or system.