Vo elll M X = 0 A block of mass M is attached to a spring of negligible mass and can slide on a horizontal surface along the a- direction, as shown above. There is friction present between the block and the surface. The spring exerts no force on the block when the center of the block is located at a = 0. At the instant shown above, the block is located at a = 0 and moving toward the right with speed v = vo- (a) For the instant shown above, with the block located at x = 0 and moving to the right, predict the direction of the net force on the block. If the net force is zero, select "The net force is zero." - To the left The net force is zero To the right Briefly justify your prediction. I x? X, 5 Ω 0 / 10000 Word Limit Force (b) The above graph indicates the force exerted on the block by the spring as a function of position æ, with the positive direction toward the right. On the same graph, draw a graph of the net force on the block, as a function of position a, for situations where the block is moving toward the right.
Vo elll M X = 0 A block of mass M is attached to a spring of negligible mass and can slide on a horizontal surface along the a- direction, as shown above. There is friction present between the block and the surface. The spring exerts no force on the block when the center of the block is located at a = 0. At the instant shown above, the block is located at a = 0 and moving toward the right with speed v = vo- (a) For the instant shown above, with the block located at x = 0 and moving to the right, predict the direction of the net force on the block. If the net force is zero, select "The net force is zero." - To the left The net force is zero To the right Briefly justify your prediction. I x? X, 5 Ω 0 / 10000 Word Limit Force (b) The above graph indicates the force exerted on the block by the spring as a function of position æ, with the positive direction toward the right. On the same graph, draw a graph of the net force on the block, as a function of position a, for situations where the block is moving toward the right.
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