Problem 3.27 (the question is continued on the 2nd picture) side of the bottom pulley, and once around the top side of the top twopulleys. The two masses are m and 2m. Assume that the parts of the stringconnecting the pulleys are essentially vertical. Find the accelerations ofthe masses. 3.26. Keeping the mass still *In the Atwood's machine in Fig. 3.19, what should M be, in terms ofm₁ and m2, so that it doesn't move?3.27. Atwood's 1 *Consider the Atwood's machine in Fig. 3.20. It consists of three pulleys,a short piece of string connecting one mass to the bottom pulley, anda continuous long piece of string that wraps twice around the bottomogmFig. 3.202m

3.27. According to the free body diagram, Let the tension be T in all strings because the same…

In the Atwood's machine in Fig. 3.19, what should M be, in terms of m₁ and m2, so that it doesn't move? 3.27. Atwood's 1 * Consider the Atwood's machine in Fig. 3.20. It consists of three pulleys, a short piece of string connecting one mass to the bottom pulley, and a continuous long piece of string that wraps twice around the bottom m Fig. 3.20 2m

In the Atwood's machine in Fig. 3.19, what should M be, in terms of m₁ and m2, so that it doesn't move? 3.27. Atwood's 1 * Consider the Atwood's machine in Fig. 3.20. It consists of three pulleys, a short piece of string connecting one mass to the bottom pulley, and a continuous long piece of string that wraps twice around the bottom m Fig. 3.20 2m

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Question

Problem 3.27 (the question is continued on the 2nd picture)

side of the bottom pulley, and once around the top side of the top two
pulleys. The two masses are m and 2m. Assume that the parts of the string
connecting the pulleys are essentially vertical. Find the accelerations of
the masses.

3.26. Keeping the mass still *
In the Atwood's machine in Fig. 3.19, what should M be, in terms of
m₁ and m2, so that it doesn't move?
3.27. Atwood's 1 *
Consider the Atwood's machine in Fig. 3.20. It consists of three pulleys,
a short piece of string connecting one mass to the bottom pulley, and
a continuous long piece of string that wraps twice around the bottom
og
m
Fig. 3.20
2m

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