View Policies Current Attempt in Progress Under the action of force P, the constant acceleration of block B is 7.5 ft/sec² up the incline. For the instant when the velocity of B is 2. ft/sec up the incline, determine the velocity of B relative to A (positive if up the slope, negative if down), the acceleration of B relative to A (positive if up the slope, negative if down), and the absolute velocity of point C (positive if up the slope, negative if down) of the cable Answers: VB/A = aB/A= Vc = 22° i i eTextbook and Media Save for Later B ft/sec ft/sec² ft/sec Attempts: 0 of 3 used Submit Answer

View Policies Current Attempt in Progress Under the action of force P, the constant acceleration of block B is 7.5 ft/sec² up the incline. For the instant when the velocity of B is 2. ft/sec up the incline, determine the velocity of B relative to A (positive if up the slope, negative if down), the acceleration of B relative to A (positive if up the slope, negative if down), and the absolute velocity of point C (positive if up the slope, negative if down) of the cable Answers: VB/A = aB/A= Vc = 22° i i eTextbook and Media Save for Later B ft/sec ft/sec² ft/sec Attempts: 0 of 3 used Submit Answer

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Question

View Policies
Current Attempt in Progress
Under the action of force P, the constant acceleration of block B is 7.5 ft/sec² up the incline. For the instant when the velocity of B is 2.3
ft/sec up the incline, determine the velocity of B relative to A (positive if up the slope, negative if down), the acceleration of B relative to
A (positive if up the slope, negative if down), and the absolute velocity of point C (positive if up the slope, negative if down) of the cable.
Answers:
VB/A =
aB/A =
4
Vc =
22°
i
i
(3
eTextbook and Media
Save for Later
B
ft/sec
ft/sec²
ft/sec
Attempts: 0 of 3 used
Submit Answer

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