This applet shows the same situation, but it also shows, through bar graphs that change with time, the way that the energy is transformed as the box and the disk go down the inclined plane.Assume that the box and disk each have mass m, the top of the incline is at height h, and the angle between the incline and the ground is theta (i.e., the incline is at an angle theta above the horizontal). Also, let the radius of the disk be R.Part BHow much sooner does the box reach the bottom of the incline than the disk?Express your answer in terms of some or all of the variables m, h, theta, and R, as well as the acceleration due to gravity g.
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