a. On the circle below draw vectors showing all the forces acting on the cylinder after it is released. Label each force clearly.

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1976 Mech 1 A small block of mass m slides on a horizontal frictionless surface as it travels around the inside of a hoop of radius R. The coefficient of friction between the block and the wall is µ; therefore, the speed v of the block decreases. In terms of m, R. µ, and v, find expressions for each of the following. a. The frictional force on the block b. The block's tangential acceleration dv/dt c. The time required to reduce the speed of the block from an initial value v 0 to v o /3

1976 Mech 2 A cloth tape is wound around the outside of a uniform solid cylinder (mass M, radius R) and fastened to the ceiling as shown in the diagram above. The cylinder is held with the tape vertical and then released from rest. As the cylinder descends, it unwinds from the tape without slipping. The moment of inertia of a uniform solid cylinder about its center is ½MR 2. a. On the circle below draw vectors showing all the forces acting on the cylinder after it is released. Label each force clearly. b. In terms of g, find the downward acceleration of the center of the cylinder as it unrolls from the tape. c. While descending, does the center of the cylinder move toward the left, toward the right, or straight down? Explain.

1976 Mech 3 A bullet of mass m and velocity v o is fired toward a block of thickness L o and mass M. The block is initially at rest on a frictionless surface. The bullet emerges from the block with velocity v o /3. a. Determine the final speed of block M. b. If, instead, the block is held fixed and not allowed to slide, the bullet emerges from the block with a speed v o /2. Determine the loss of kinetic energy of the bullet c. Assume that the retarding force that the block material exerts on the bullet is constant. In terms of L o, what minimum thickness L should a fixed block of similar material have in order to stop the bullet? d. When the block is held fixed, the bullet emerges from the block with a greater speed than when the block is free to move. Explain.

1976 E&M 1 A solid metal sphere of radius R has charge +2Q. A hollow spherical shell of radius 3R placed concentric with the first sphere has net charge -Q. a. On the diagram below, make a sketch of the electric field lines inside and outside the spheres. b. Use Gauss's law to find an expression for the magnitude of the electric field between the spheres at a distance r from the center of the inner sphere (R < r < 3R). c. Calculate the potential difference between the two spheres. d. What would be the final distribution of the charge if the spheres were joined by a conducting wire?

1976 E&M 2 A conducting bar of mass M slides without friction down two vertical conducting rails which are separated by a distance L and are joined at the top through an unknown resistance R. The bar maintains electrical contact with the rails at all times. There is a uniform magnetic field B, directed into the page as shown above. The bar is observed to fall with a constant terminal speed v 0. a. On the diagram below, draw and label all the forces acting on the bar. b. Determine the magnitude of the induced current I in the bar as it falls with constant speed v 0 in terms of B, L, g, v 0, and M. c. Determine the voltage induced in the bar in terms of B, L, g, v 0, and M. d. Determine the resistance R in terms of B, L, g, v 0, and M.

1976 E&M 3 An ion of mass m and charge of known magnitude q is observed to move in a straight line through a region of space in which a uniform magnetic field B points out of the paper and a uniform electric field E points toward the top edge of the paper, as shown in region I above. The particle travels into region II in which the same magnetic field is present, but the electric field is zero. In region II the ion moves in a circular path of radius R as shown. a. Indicate on the diagram below the direction of the force on the ion at point P 2, in region II. b. Is the ion positively or negatively charged? Explain clearly the reasoning on which you base your conclusion. c. Indicate and label on the diagram below the forces which act on the ion at point P 1 in region I. d. Find an expression for the ion s speed v at point P 1 in terms of E and B. e. Starting with Newton s law, derive an expression for the mass m of the ion in terms of B, E, q, and R.

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