1. Attach a 100g mass on spring 1. Stop the oscillation. Check the boxes "Natural length" and "Equilibrium position" at

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1 Attach A 100g Mass On Spring 1 Stop The Oscillation Check The Boxes Natural Length And Equilibrium Position At 1 (57.64 KiB) Viewed 71 times

1 Attach A 100g Mass On Spring 1 Stop The Oscillation Check The Boxes Natural Length And Equilibrium Position At 2 (41.04 KiB) Viewed 71 times

1 Attach A 100g Mass On Spring 1 Stop The Oscillation Check The Boxes Natural Length And Equilibrium Position At 3 (47.86 KiB) Viewed 71 times

1 Attach A 100g Mass On Spring 1 Stop The Oscillation Check The Boxes Natural Length And Equilibrium Position At 4 (46.74 KiB) Viewed 71 times

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1. Attach a 100g mass on spring 1. Stop the oscillation. Check the boxes "Natural length" and "Equilibrium position" at the right side of the simulation. 2. Select Earth for gravity. 3. Change the spring constant to 7 on the scale 0 (small) to 9 (large). Energy Graph Q Mass 60 100 g 300 20 30 8 40 50 60 70 80 90 100 g Spring Constant 1 Small L Height-0m Large 11 OOK R Displacement Natural Length Mass Equilibrium Movable Line Period Trace Gravity Earth Damping None Velocity Acceleration Normal Slow 9.8 ms 30 Lots 00:00 96
D Question 1 How much the spring is stretched? Express your answer in cm. Question 2 What is the spring constant? Express your answer in N/m. I 1 pts 1 pts
Question 3 Pull down the mass by 4 cm and set it to oscillate. What is the amplitude of this oscillation? Express your answer in cm. Question 4 What is the frequency of this oscillation? Express your answer in Hz. D 1 pts 2 pts
What is the time period of this oscillation? Express your answer in seconds (s) Question 6 What is the angular speed (or angular frequency) of this oscillation? Express your answer in rad/s I 2 F
What would be the maximum speed of the mass? Express your answer in m/s