In the figure below, two blocks, of mass m, = 380 g and m2 = 800 g, are connected by a massless cord that is wrapped around a uniform disk of mass M = 500 g and radius R = 12.0 cm. The dis can rotate without friction about a fixed horizontal axis through its center; the cord cannot slip on the disk. The system is released from rest. M. R. T (a) Find the magnitude of the acceleration of the blocks. m/s2 (b) Find the tension T, in the cord at the left. (c) Find the tension T2 in the cord at the right.
In the figure below, two blocks, of mass m, = 380 g and m2 = 800 g, are connected by a massless cord that is wrapped around a uniform disk of mass M = 500 g and radius R = 12.0 cm. The dis can rotate without friction about a fixed horizontal axis through its center; the cord cannot slip on the disk. The system is released from rest. M. R. T (a) Find the magnitude of the acceleration of the blocks. m/s2 (b) Find the tension T, in the cord at the left. (c) Find the tension T2 in the cord at the right.
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= 380 g and mɔ = 800 g, are connected by a massless cord that is wrapped around a uniform disk of mass M = 500 g and radius R = 12.0 cm. The disk
can rotate without friction about a fixed horizontal axis through its center; the cord cannot slip on the disk. The system is released from rest.
M
R
T
|T2
m2
(a) Find the magnitude of the acceleration of the blocks.
m/s²
(b) Find the tension T1 in the cord at the left.
(c) Find the tension T2 in the cord at the right.
N"
Transcribed Image Text:In the figure below, two blocks, of mass m1
= 380 g and mɔ = 800 g, are connected by a massless cord that is wrapped around a uniform disk of mass M = 500 g and radius R = 12.0 cm. The disk
can rotate without friction about a fixed horizontal axis through its center; the cord cannot slip on the disk. The system is released from rest.
M
R
T
|T2
m2
(a) Find the magnitude of the acceleration of the blocks.
m/s²
(b) Find the tension T1 in the cord at the left.
(c) Find the tension T2 in the cord at the right.
N
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