Two metal disks, one with radius R 1 = 2.60 c m and mass M 1 = 0.700 k g and the

ID: 2281371 • Letter: T

Question

Two metal disks, one with radius R1 = 2.60cm and mass M1 = 0.700kg and the other with radius R2 = 5.05cmand mass M2 = 1.55kg , are welded together and mounted on a frictionless axis through their common center. A light string is wrapped around the edge of the smaller disk and a 1.40kg block is suspended from the free end of the string. Part A What is the magnitude of the downward acceleration of the block after it is released? Take the free fall acceleration to be 9.80m/s2.
Part B Repeat the calculation of part (a), this time with the string wrapped around the edge of the larger disk. Take the free fall acceleration to be 9.80m/s2. Two metal disks, one with radius R1 = 2.60cm and mass M1 = 0.700kg and the other with radius R2 = 5.05cmand mass M2 = 1.55kg , are welded together and mounted on a frictionless axis through their common center. A light string is wrapped around the edge of the smaller disk and a 1.40kg block is suspended from the free end of the string. Part A What is the magnitude of the downward acceleration of the block after it is released? Take the free fall acceleration to be 9.80m/s2.
Part B Repeat the calculation of part (a), this time with the string wrapped around the edge of the larger disk. Take the free fall acceleration to be 9.80m/s2. Two metal disks, one with radius R1 = 2.60cm and mass M1 = 0.700kg and the other with radius R2 = 5.05cmand mass M2 = 1.55kg , are welded together and mounted on a frictionless axis through their common center. A light string is wrapped around the edge of the smaller disk and a 1.40kg block is suspended from the free end of the string. Two metal disks, one with radius R1 = 2.60cm and mass M1 = 0.700kg and the other with radius R2 = 5.05cmand mass M2 = 1.55kg , are welded together and mounted on a frictionless axis through their common center. A light string is wrapped around the edge of the smaller disk and a 1.40kg block is suspended from the free end of the string. Two metal disks, one with radius R1 = 2.60cm and mass M1 = 0.700kg and the other with radius R2 = 5.05cmand mass M2 = 1.55kg , are welded together and mounted on a frictionless axis through their common center. A light string is wrapped around the edge of the smaller disk and a 1.40kg block is suspended from the free end of the string. Part A What is the magnitude of the downward acceleration of the block after it is released? Take the free fall acceleration to be 9.80m/s2.
Part B Repeat the calculation of part (a), this time with the string wrapped around the edge of the larger disk. Take the free fall acceleration to be 9.80m/s2. Part A What is the magnitude of the downward acceleration of the block after it is released? Take the free fall acceleration to be 9.80m/s2.
Part B Repeat the calculation of part (a), this time with the string wrapped around the edge of the larger disk. Take the free fall acceleration to be 9.80m/s2. Part A What is the magnitude of the downward acceleration of the block after it is released? Take the free fall acceleration to be 9.80m/s2.
Part B Repeat the calculation of part (a), this time with the string wrapped around the edge of the larger disk. Take the free fall acceleration to be 9.80m/s2. Part B Repeat the calculation of part (a), this time with the string wrapped around the edge of the larger disk. Take the free fall acceleration to be 9.80m/s2.

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Two metal disks, one with radius R 1 = 2.53 cm and mass M 1 = 0.790 kg and the o

Two metal disks, one with radius R 1 = 2.60 cmand mass M 1 = 0.850 kg and the ot

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Two metal disks, one with radius R 1 = 2.60 c m and mass M 1 = 0.700 k g and the

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