- Xc + d 00004 m 3. Two identical springs of spring constant k are on opDosite sides of a flat table as shown in the figure. A block of mass m compresses the left-hand spring from its equilibrium extension by a distance rc. The block is released and detaches from the left spring at its equilibrium extension and eventually runs into and compresses the right-hand spring a distance d away. The coefficient of kinetic friction between the block and the surface of the table is uk. (a) If µ = 0, find an expression for the speed of the block when it detaches from the first spring in terms of g, k, xc, m, d. (b) If µ = 0, find an expression for the distance that the second spring is compressed in terms of g, k, xc, m, d. (c) If uk #0, find an expression for the speed of the block just as it reaches the second spring and before it is compressed in terms of g, k, xc, m, d, µk- (d) If µk #0, find an expression for the distance that the second spring is compressed in terms of g, k, Ic, m, d, µk-
- Xc + d 00004 m 3. Two identical springs of spring constant k are on opDosite sides of a flat table as shown in the figure. A block of mass m compresses the left-hand spring from its equilibrium extension by a distance rc. The block is released and detaches from the left spring at its equilibrium extension and eventually runs into and compresses the right-hand spring a distance d away. The coefficient of kinetic friction between the block and the surface of the table is uk. (a) If µ = 0, find an expression for the speed of the block when it detaches from the first spring in terms of g, k, xc, m, d. (b) If µ = 0, find an expression for the distance that the second spring is compressed in terms of g, k, xc, m, d. (c) If uk #0, find an expression for the speed of the block just as it reaches the second spring and before it is compressed in terms of g, k, xc, m, d, µk- (d) If µk #0, find an expression for the distance that the second spring is compressed in terms of g, k, Ic, m, d, µk-
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