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Stationary Tension, m_varied (kg) m_fixed (kg) Moving Tension, Moving Tension, Experimental (N) Experimental (N) Predicted (N) 0.494 0.05 0.253 0.392 0.4091 0.991 0.1 0.253 0.681

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Stationary Tension, m_varied (kg) m_fixed (kg) Moving Tension, Moving Tension, Experimental (N) Experimental (N) Predicted (N) 0.494 0.05 0.253 0.392 0.4091 0.991 0.1 0.253 0.681 0.7024 1.488 0.15 0.253 0.902 0.9229 1.983 0.2 0.253 1.059 1.0947 2.452 0.25 0.253 1.191 1.2323 Fill in the blanks below based on the data given: Make a linear graph of your experimental data Moving Tension experimental (y-axis) vs. Moving Tension predicted (x-axis). What is the slope m and the slope's uncertainty of your graph? Report your slope to 3(three) significant figures and match the number of significant figures of the uncertainty accordingly. m = X + X What is the r-value of your linear fit? r = X Make a linear plot of 1 -(x-axis). What is the slope and the slope's uncertainty of that graph? Moving Tension experimental (y-axis) vs. - m varied Report your slope to 3(three) significant figures and match the number of significant figures of the uncertainty accordingly. Slope = x + x kg/N 1 1 Using your previous result of the slope of - VS. calculate the experimental value of gravitational Moving Tension experimental varied 1 acceleration g and its uncertainty. HINT: What is the expression of the slope of your - VS. graph? How is Moving Tension experimental m varied it related to the acceleration of the free fall? Report your quantity to 3(three) significant figures and match the number of significant figures of the uncertainty accordingly. g = X * m/s2

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