A. Find the kinetic energy K of the car at he top of the loop in Joules.B. Find the minimum initial height, in meters, at which the car can be released that still allows the car to stay in contact with the track at the top of the loop. h Loop the Loop(Figure 1)A roller-coaster car may be represented by ablock of mass 50.0 kg . The car is released from rest at aheight h = 45.0 m above the ground and slides along africtionless track. The car encounters a loop of radius R= 15.0 m at ground level, as shown. As you will learn inthe course of this problem, the initial height 45.0 m isgreat enough so that the car never loses contact with thetrack.

As the track is frictionless energy will be conserved at every point of the track.Energy at the top of incline = energy at the top of the line loop .mgh + 1/2mu2 = mg(2R) + 1/2mv2 .mgh + 0 = 2mgR + 1/2mv2 1/2mv2 = mgh – 2mg R V2/2= gh – 2g R V2 = 2g(h – 2R) V = √2X9.8X(45-2X15) V = √2X9.8X15 V = 17.14 To complete the full loop, At the top of loop centripetal force = weight Mv2/R = mg V2 = Rg Speed at hop of loop is given by V2 = 2g(h-2R) Rg = 2g(h-2R) .h = 5R/2 .h = 5X15 /2 = 37.5 m This is the minimum initial height needed to complete the loop

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Find the kinetic energy K of the car at he top of the loop in Joules. B. Find the minimum initial height, in meters, at which the car can be released that still allows the car to stay in contact with the track at the top of the loop

Find the kinetic energy K of the car at he top of the loop in Joules. B. Find the minimum initial height, in meters, at which the car can be released that still allows the car to stay in contact with the track at the top of the loop

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Question

A. Find the kinetic energy K of the car at he top of the loop in Joules.

B. Find the minimum initial height, in meters, at which the car can be released that still allows the car to stay in contact with the track at the top of the loop.