The experiment you did in lab is repeated, using a uniform metal bar that is 80.0 cm long instead of the meterstick. Since the bar is uniform, its center of gravity is at its center. The new experiment uses different hooks for hanging the masses from the bar, with mhook = 5.0 g. As in the experiment you did in lab, x1 = 5.00 cm, m, = 300.0 g, and x, = 25.0 cm. In the new experiment, you make the same measurements as in your lab and plot x versus The line that is the best fit to your data has slope 3800 cm · g. What is the mass of m2 + mhook the bar?
The experiment you did in lab is repeated, using a uniform metal bar that is 80.0 cm long instead of the meterstick. Since the bar is uniform, its center of gravity is at its center. The new experiment uses different hooks for hanging the masses from the bar, with mhook = 5.0 g. As in the experiment you did in lab, x1 = 5.00 cm, m, = 300.0 g, and x, = 25.0 cm. In the new experiment, you make the same measurements as in your lab and plot x versus The line that is the best fit to your data has slope 3800 cm · g. What is the mass of m2 + mhook the bar?
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Transcribed Image Text:The experiment you did in lab is repeated, using a uniform metal bar that is 80.0 cm long instead of the meterstick. Since the bar is uniform, its center of gravity is at its center. The new
experiment uses different hooks for hanging the masses from the bar, with mhook
5.0 g. As in the experiment you did in lab, X1 = 5.00 cm, m1
300.0 g, and Xp
= 25.0 cm. In the
1
new experiment, you make the same measurements as in your lab and plot x versus
The line that is the best fit to your data has slope 3800 cm ·
g. What is the mass of
m2 + mhook
the bar?
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