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{"ops":[{"insert":"Force vs Positive Shortening velocity graph: all on the first graph\n\nNote: force in N is the y-axis and velocity is the x-axis with absolute values for all\n\nMuscle 1 has 1,500 N and decreasing slope that reaches 1.85 m\/s \nMuscle 2 has 750 N and decreasing slope reaches 1.85 m\/s \nMuscle 3 has 1,500 N with decreasing slope that reaches 0.85 m\/s\nMuscle 4 has 750 N with decreasing slope that reaches 0.85 m\/s\n\nPower vs Positive Shortening Velocity graph: all begin at origin (0,0)\nMuscle 1 has the greatest increased power of approx 375W at 0.75m\/s then decreases back to 0 Watts at 1.85 m\/s \nMuscle 2 has an increase in power of 190W at 0.75m\/s then decreased back to 0 Watts at 1.85 m\/s \nMuscle 3 has an increase in power of 190 W at 0.25 m\/s with a decrease of 0 watts at 0.85 m\/s \nMuscle 4 has the smallest increase in power of 95 Watts at 0.25 m\/s with decrease 0 Watts at 0.85 m\/s \n\n1.a) Which muscle(s) of these four is (are) the longest at resting length? Why?\nb)\u00a0 What is the resting length of muscle 2? Explain. \n"}]}
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