11. In Part 3 of the force table lab, could all four pulleys be placed in the same quadrant or in two adjacent quadrants and still be in equilibrium? Explain. a Yes. Because the weights could cancel out. b. Yes. If they are all equal. c. No. Because the system is rotating 4 No. Because under these conditions Componants in two dimensions could not cancel out. All of the above.
11. In Part 3 of the force table lab, could all four pulleys be placed in the same quadrant or in two adjacent quadrants and still be in equilibrium? Explain. a Yes. Because the weights could cancel out. b. Yes. If they are all equal. c. No. Because the system is rotating 4 No. Because under these conditions Componants in two dimensions could not cancel out. All of the above.
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Transcribed Image Text:The following ten questions are identical to the last ten questions on the make-up exam
11. In Part 3 of the force table lab, could all four pulleys be placed in the same quadrant or in
two adjacent quadrants and still be in equilibrium? Explain.
a Yes. Because the weights could cancel out.
b. Yes. If they are all equal.
c. No. Because the system is rotating.
i No. Because under these conditions Componants in two dimensions could not
cancel out.
e. All of the above.
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