(Figure 1) shows a F = 7.0 N force pushing two gliders along an air track. The 220 g spring between the gliders is compressed. Assume the force F acts and the whole system moves in the same direction. The spring does not sag. Part A How much force does the spring exert on glider A? Express your answer to two significant figures and include the appropriate units. ? F = Value Units Submit Request Answer Part B How much force does the spring exert on glider B? Express your answer to two significant figures and include the appropriate units. ? F = Value Units Submit Request Answer Provide Feedback Figure < 1 of 1 > В 400 g |600 g|

Transcribed Image Text:

# Problem 7.22 **Description:** This educational problem focuses on the forces exerted by a spring between two gliders on an air track. A force \( F = 7.0 \, \text{N} \) is applied to the gliders. The spring between the gliders has a spring constant of 220 N/m and is compressed. The setup assumes that the force \( F \) is acting uniformly across the system, and the spring does not sag. ## Diagram Explanation: **Figure 1:** The figure illustrates two gliders labeled as \( A \) and \( B \) on an air track. Glider \( A \) has a mass of 400 g and glider \( B \) has a mass of 600 g. They are connected by a compressed spring. The force \( F \) is applied to the left side of glider \( A \). ### Graphical Elements: - The spring is shown compressed between the two gliders. - The applied force \( F \) is depicted by a red arrow pointing to the right, acting on glider \( A \). ## Part A: **Problem Statement:** Determine the force the spring exerts on glider \( A \). **Instructions:** You need to express your answer using two significant figures and include the appropriate units. ## Part B: **Problem Statement:** Find out how much force the spring exerts on glider \( B \). **Instructions:** Your answer should be expressed with two significant figures and include the appropriate units. --- **Note:** For both parts, answers should consider Newton's third law and the properties of the spring force according to Hooke's Law, where the force exerted by the spring is equal and opposite on both gliders.