Part I: Gaining Intuition for Spring Behavior We begin by looking at the simplest static situation. Open the following simulation: 0 https:,'fEhet.colorado.edufsimsfhtmlfhookeslawflatestfhookesIaw en.html Choose the "Intro" Option. Click the two springs icon on the right side of the screen- Check off all five boxes on the top right of the screen. Choose 100 Newtons of appiied force for the top spring. [100M is the amount of force equal to the weight of a 10.2kg mass. This is also 22.5 pou nds.) El. b. What is the direction of the applied force? What is the direction of the spring force i.e. the force the spring exerts on the pincers? What is the magnitude of the spring force? Adjust the spring constant until you get a displacement of 0.100m to the right. What is the spring constant? is the displacement the same as the length of the spring? Adjust the applied force until you get a displacement of 0.100m to the left. What is the magnitude and direction of the applied force? What is the magnitude and direction of the force exerted by the spring on the pincers? Make the force 1f2 the original [50\"]. By what factor does the displacement change compared to original 0.100? Make the force 1.?4 of the original {25\"}. By what factor does the displacement change compared to the original 0.100111? Make the force 1!.5 of the original [ZON]. By what factor does the displacement change? Make the force 1f10 of the original [10M]. By what factor does the displacement change? Based on your virtual experiment, keeping the same spring constant, and assuming the spring behavior does not change, what would be the displacement with 200N of applied force? What would be the displacement with 0.500N of applied force? Apply 100M of force to the left to the bottom spring and adjust the spring constant for the bottom spring until you get a displacement of 0.20m to the left [double the displacement of the top spring for the same force]. What is the spring constant? With the same 100M of applied force to the left, find the spring constant to get a displacement of 0.40m to the left. Find the spring constant to get a displacement of 0.50m to the left. Find the spring constant to get a displacement of 1.0m to the left