Open the simulation (https://phet.colorado.edu/en/simulation/masses-and-springs-basics). Run thesimulation and select Stretch.Set the value for the Spring Strength 1 to the fifth line:Hang the block of mass 50 g to the spring on the left and measure the vertical displacements Δy byusing the ruler located on the right of the screen (you can drag it). Repeat for the block of m = 100 gand m = 250 g. Calculate F (= mg) for each mass and make a plot of F vs Δy. Use g = 9.81 m/s2.7. Determine k from the slope of the line (see Eq 1).Using the value of k find the unknown mass of the red, blue and green block,8. What is the sum of the masses of the red and blue block?9. What is the sum of the masses of the red and green block?10. What is the sum of the masses of the green and blue block? *Use the link above to do the simulation- copy and paste it into a search bar and it'll pop up*
Open the simulation (https://phet.colorado.edu/en/simulation/masses-and-springs-basics). Run thesimulation and select Stretch.Set the value for the Spring Strength 1 to the fifth line:Hang the block of mass 50 g to the spring on the left and measure the vertical displacements Δy byusing the ruler located on the right of the screen (you can drag it). Repeat for the block of m = 100 gand m = 250 g. Calculate F (= mg) for each mass and make a plot of F vs Δy. Use g = 9.81 m/s2.7. Determine k from the slope of the line (see Eq 1).Using the value of k find the unknown mass of the red, blue and green block,8. What is the sum of the masses of the red and blue block?9. What is the sum of the masses of the red and green block?10. What is the sum of the masses of the green and blue block? *Use the link above to do the simulation- copy and paste it into a search bar and it'll pop up*
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Question
Open the simulation (https://phet.colorado.edu/en/simulation/masses-and-springs-basics). Run the
simulation and select Stretch.
Set the value for the Spring Strength 1 to the fifth line:
Hang the block of mass 50 g to the spring on the left and measure the vertical displacements Δy by
using the ruler located on the right of the screen (you can drag it). Repeat for the block of m = 100 g
and m = 250 g. Calculate F (= mg) for each mass and make a plot of F vs Δy. Use g = 9.81 m/s2.
7. Determine k from the slope of the line (see Eq 1).
Using the value of k find the unknown mass of the red, blue and green block,
8. What is the sum of the masses of the red and blue block?
9. What is the sum of the masses of the red and green block?
10. What is the sum of the masses of the green and blue block?
simulation and select Stretch.
Set the value for the Spring Strength 1 to the fifth line:
Hang the block of mass 50 g to the spring on the left and measure the vertical displacements Δy by
using the ruler located on the right of the screen (you can drag it). Repeat for the block of m = 100 g
and m = 250 g. Calculate F (= mg) for each mass and make a plot of F vs Δy. Use g = 9.81 m/s2.
7. Determine k from the slope of the line (see Eq 1).
Using the value of k find the unknown mass of the red, blue and green block,
8. What is the sum of the masses of the red and blue block?
9. What is the sum of the masses of the red and green block?
10. What is the sum of the masses of the green and blue block?
*Use the link above to do the simulation- copy and paste it into a search bar and it'll pop up*
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