Two bags of equal mass m are tied together with unstretchable, massless rope. One bag hangs vertically, while the other is free to slide on a frictionless slope of angle β. Treat the tip of the slope (which the rope is passing over) like a massless, frictionless pulley. Let g denote the magnitude of free-fall acceleration. Let down define the positive direction for the hanging bag. What is ay, the vertical component of the acceleration of the hanging bag? ay = Enter your expression in terms of given quantities and integers.

Two bags of equal mass m are tied together with unstretchable, massless rope. One bag hangs vertically, while the other is free to slide on a frictionless slope of angle β. Treat the tip of the slope (which the rope is passing over) like a massless, frictionless pulley. Let g denote the magnitude of free-fall acceleration. Let down define the positive direction for the hanging bag. What is ay, the vertical component of the acceleration of the hanging bag? ay = Enter your expression in terms of given quantities and integers.

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Two bags of equal mass m are tied together with unstretchable, massless rope. One bag hangs vertically, while the other is free to slide on a frictionless slope of angle β .
Treat the tip of the slope (which the rope is passing over) like a massless, frictionless pulley. Let g denote the magnitude of free-fall acceleration.
Let down define the positive direction for the hanging bag. What is a y , the vertical component of the acceleration of the hanging bag?
a y =
Enter your expression in terms of given quantities and integers.

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