An experiment is performed using the apparatus above. A small disk of mass m, on a frictionless table is attached to one end of a string. The string passes through a hole in the table and an attached narrow, vertical plastic tube. An object of mass m, is hung at the other end of the string. A student holding the tube makes the disk rotate in a circle of constant radius r, while another student measures the period P. m,r Derive the equation P= 2, that relates P and m. a. V m28 The procedure is repeated, and the period P is determined for four different values of m, where m, =0.012 kg and r=0.80 m. The data, which are presented below, can be used to compute an experimental value for g. m: (kg) 0.020 0.040 0.060 0.080 P (s) 1.40 1.05 0.80 0.75 What quantities should be graphed to yield a straight line with a slope that could be used to determine g? On the grid beklow, plot the quantities determined in part (b), label the axes, and draw the best-fit line to the data. You may use the blank rows above to record any values you may need to calculate. b. c. d. Use your graph to calculate the experimental value of g. Enter ONLY PART D below. Give your answer in m/s² to THREE sig figs (2 decima places in this problem.
An experiment is performed using the apparatus above. A small disk of mass m, on a frictionless table is attached to one end of a string. The string passes through a hole in the table and an attached narrow, vertical plastic tube. An object of mass m, is hung at the other end of the string. A student holding the tube makes the disk rotate in a circle of constant radius r, while another student measures the period P. m,r Derive the equation P= 2, that relates P and m. a. V m28 The procedure is repeated, and the period P is determined for four different values of m, where m, =0.012 kg and r=0.80 m. The data, which are presented below, can be used to compute an experimental value for g. m: (kg) 0.020 0.040 0.060 0.080 P (s) 1.40 1.05 0.80 0.75 What quantities should be graphed to yield a straight line with a slope that could be used to determine g? On the grid beklow, plot the quantities determined in part (b), label the axes, and draw the best-fit line to the data. You may use the blank rows above to record any values you may need to calculate. b. c. d. Use your graph to calculate the experimental value of g. Enter ONLY PART D below. Give your answer in m/s² to THREE sig figs (2 decima places in this problem.
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Transcribed Image Text:An experiment is performed using the apparatus above. A small disk of mass m, on a frictionless table is
attached to one end of a string. The string passes through a hole in the table and an attached narrow, vertical
plastic tube. An object of mass m; is hung at the other end of the string. A student holding the tube makes the
disk rotate in a circle of constant radius r, while another student measures the period P.
m,r
a. Derive the equation P= 2x that relates Pand m;.
The procedure is repeated, and the period P is determined for four different values of m, where m, = 0.012 kg
and r= 0.80 m. The data, which are presented below, can be used to compute an experimental value for g.
m: (kg)
0.020
0.040
0.060
0.080
P (s)
1.40
1.05
0.80
0.75
b. What quantities should be graphed to yield a straight line with a slope that could be used to determine g?
On the grid beklow, plot the quantities determined in part (b), label the axes, and draw the best-fit line to the
data. You may use the blank rows above to record any values you may need to calculate
d.
Use your graph to calculate the experimental value of g.
Enter ONLY PART D below. Give your
answer in m/s² to THREE sig figs (2 decimal
places
in this problem.
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