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A system of two cables supports a 150 N ball; What is the tension in the right-hand cable? a. 87 N b. 150 N c. 170 N d. 260 N e. 300 N

User DaddyMoe
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2 Answers

3 votes

Final answer:

The tension in the right-hand cable is 75 N.

Step-by-step explanation:

In order to determine the tension in the right-hand cable, we need to consider the forces acting on the ball. The weight of the ball, which is 150 N, is balanced by the tension in the two cables. Since the two cables support the ball, the tension in each cable will be half of the weight of the ball, which is 75 N. Therefore, the tension in the right-hand cable is 75 N.

User Chapskev
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4 votes

Final answer:

The tension in the right-hand cable supporting a 150 N ball is 150 N.

Step-by-step explanation:

In a system of two cables supporting a ball, the tension in each cable can be calculated using the principle of equilibrium. Since the ball is in a static position, the sum of the forces acting on it must be zero.

If the weight of the ball is 150 N, and it is supported by two cables, the tension in each cable will be equal in magnitude. Therefore, the tension in the right-hand cable would also be 150 N.

Hence, the correct answer is option b. 150 N.

User Bgee
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