Use the same simulation entitled Masses and Springs. You can restart the simulation by clicking the yellow icon located at the bottom right. Use the same spring constant set at the third line. Hang the block of mass 100 g to one of the spring and compare the oscillation on Earth with the oscillations as the spring was placed on Jupiter (select Jupiter in the tab under Gravity). 14. How is the mass different on Jupiter? 15. How is the force F acting on the mass different on Jupiter? 16. How is the displacement Δy different on Jupiter? 17. How is the period of oscillation T different on Jupiter? (https://phet.colorado.edu/en/simulation/masses-and-springst). Use this Link to do the simulation These were the formulas given: F = −k x and ω = √ k m , and T = 2 π√ m k .

Use the same simulation entitled Masses and Springs. You can restart the simulation by clicking the yellow icon located at the bottom right. Use the same spring constant set at the third line. Hang the block of mass 100 g to one of the spring and compare the oscillation on Earth with the oscillations as the spring was placed on Jupiter (select Jupiter in the tab under Gravity). 14. How is the mass different on Jupiter? 15. How is the force F acting on the mass different on Jupiter? 16. How is the displacement Δy different on Jupiter? 17. How is the period of oscillation T different on Jupiter? (https://phet.colorado.edu/en/simulation/masses-and-springst). Use this Link to do the simulation These were the formulas given: F = −k x and ω = √ k m , and T = 2 π√ m k .