In the figure below, mA = 1.50 kg and mg = 0.50 kg and the table surface is frictionless. If the system is released from rest, what is the tension in the string connecting the blocks? B O 3.68 N O 4.43 N O 1.23 N O 2.45 N

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In the figure below, ma = 1.50 kg and mg = 0.50 kg and the table surface is frictionless. If the system is released from rest, what is the tension in the string connecting the blocks?
3.68 N
O 4.43 N
О 1.23 N
O 2.45 N
Transcribed Image Text:In the figure below, ma = 1.50 kg and mg = 0.50 kg and the table surface is frictionless. If the system is released from rest, what is the tension in the string connecting the blocks? 3.68 N O 4.43 N О 1.23 N O 2.45 N
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Follow-up Question
In the figure below, the table surface is NOT frictionless and the system is at rest. The mass of block A is mA and the mass of block B is mg. Which of the
following is true?
A
B
The force of static friction on block A is greater than the weight of block B.
The force of static friction on block A is less than the weight of block B.
The force of static friction on block A is equal to the weight of block A.
The force of static friction on block A is equal to the weight of block B.
Transcribed Image Text:In the figure below, the table surface is NOT frictionless and the system is at rest. The mass of block A is mA and the mass of block B is mg. Which of the following is true? A B The force of static friction on block A is greater than the weight of block B. The force of static friction on block A is less than the weight of block B. The force of static friction on block A is equal to the weight of block A. The force of static friction on block A is equal to the weight of block B.
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Follow-up Question
In the figure below, mA = 1.50 kg and mp = 0.50 kg and the table surface is frictionless. If the system is released from rest, what is the acceleration of the
system?
A
B
2
3.27 m/s2
5.23 m/s2
2.45 m/s2
7.35 m/s2
Transcribed Image Text:In the figure below, mA = 1.50 kg and mp = 0.50 kg and the table surface is frictionless. If the system is released from rest, what is the acceleration of the system? A B 2 3.27 m/s2 5.23 m/s2 2.45 m/s2 7.35 m/s2
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