Two blocks, each with weight w , are held in place on a frictionless incline as
ID: 2263595 • Letter: T
Question
Two blocks, each with weight w, are held in place on a frictionless incline as shown in the figure. In terms of wand the angle ? of the incline. (Figure 1) Two blocks, each with weight w, are held in place on a frictionless incline as shown in the figure. In terms of wand the angle ? of the incline. (Figure 1) Two blocks, each with weight w, are held in place on a frictionless incline as shown in the figure. In terms of wand the angle ? of the incline. (Figure 1) Two blocks, each with weight w, are held in place on a frictionless incline as shown in the figure. In terms of wand the angle ? of the incline. (Figure 1) Part A Calculate the tension in the rope connecting the blocks. Enter a instead of alpha (?). TAB = Part B Calculate the tension in the rope that connects block A to the wall. Enter a instead of alpha (?). TA?wall = Part C Calculate the magnitude of the force that the incline exerts on each block. Enter a instead of alpha (?). N = Provide FeedbackContinue Part A Calculate the tension in the rope connecting the blocks. Enter a instead of alpha (?). TAB = Part B Calculate the tension in the rope that connects block A to the wall. Enter a instead of alpha (?). TA?wall = Part C Calculate the magnitude of the force that the incline exerts on each block. Enter a instead of alpha (?). N = Part A Calculate the tension in the rope connecting the blocks. Enter a instead of alpha (?). TAB = Part B Calculate the tension in the rope that connects block A to the wall. Enter a instead of alpha (?). TA?wall = Part C Calculate the magnitude of the force that the incline exerts on each block. Enter a instead of alpha (?). N = Part A Calculate the tension in the rope connecting the blocks. Enter a instead of alpha (?). TAB = Part B Calculate the tension in the rope that connects block A to the wall. Enter a instead of alpha (?). TA?wall = Part C Calculate the magnitude of the force that the incline exerts on each block. Enter a instead of alpha (?). N = Part A Calculate the tension in the rope connecting the blocks. Enter a instead of alpha (?). TAB = Part A Calculate the tension in the rope connecting the blocks. Enter a instead of alpha (?). TAB = TAB = TAB = Part B Calculate the tension in the rope that connects block A to the wall. Enter a instead of alpha (?). TA?wall = Part B Calculate the tension in the rope that connects block A to the wall. Enter a instead of alpha (?). TA?wall = TA?wall = TA?wall = Part C Calculate the magnitude of the force that the incline exerts on each block. Enter a instead of alpha (?). N = Part C Calculate the magnitude of the force that the incline exerts on each block. Enter a instead of alpha (?). N = N = N = Provide FeedbackContinue Figure 1 of 1 TAB = Two blocks, each with weight w, are held in place on a frictionless incline as shown in the figure. In terms of wand the angle ? of the incline. (Figure 1) Calculate the tension in the rope connecting the blocks. Enter a instead of alpha (?). Calculate the tension in the rope that connects block A to the wall. Enter a instead of alpha (?). Calculate the magnitude of the force that the incline exerts on each block. Enter a instead of alpha (?).Explanation / Answer
When choosing a coordinate system for an inclined surface, it is generally best to have the x and y axis of the system parallel and perpendicular to the surface respectively. One can imagine the coordinate system to be
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