The two blocks with weights, W = 10N and W2= 15N, are situated on %3D %3D an incline as illustrated in the figure below. The angle of the incline is 30° and the coefficient of kinetic friction between the inclined surface and the block is g = 0.15. Using either Newton's Second Law or Conservation of Energy (with a non-conservative force) determine the velocity of the blocks after they move 50cm. (a) (2 points) Circle the name of the method you are using, Newton's Second Law or Conservation of Energy. (b) (6 points) Draw the free body diagram for the mass on the incline. (c) (12 points) Determine the velocity of the blocks after the move the 50cm.

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The two blocks with weights, W = 10N and W2= 15N, are situated on %3D an incline as illustrated in the figure below. The angle of the incline is 30° and the coefficient of kinetic friction between the inclined surface and the block is g = 0.15. Using either Newton's Second Law or Conservation of Energy (with a non-conservative force) determine the velocity of the blocks after they move 50cm. (a) (2 points) Circle the name of the method you are using, Newton's Second Law or Conservation of Energy. (b) (6 points) Draw the free body diagram for the mass on the incline. (c) (12 points) Determine the velocity of the blocks after the move the 50cm.