In the following figure, the mass m1 and m2 are stationary at 0 position in the spring, which is a spring constant k. If mass m1 and m2 are pulled to the right by x1 and x2 respectively, then released, mass m1 and m2 will oscillate from side to side. Calculate the moving distances of mass m1 and m2 x1 and x2. (Let's say mass m1 and m2 are
In the following figure, the mass m1 and m2 are stationary at 0 position in the spring, which is a spring constant k. If mass m1 and m2 are pulled to the right by x1 and x2 respectively, then released, mass m1 and m2 will oscillate from side to side. Calculate the moving distances of mass m1 and m2 x1 and x2. (Let's say mass m1 and m2 are
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In the following figure, the mass m1 and m2 are stationary at 0 position in the spring, which is a spring constant k. If mass m1 and m2 are pulled to the right by x1 and x2 respectively, then released, mass m1 and m2 will oscillate from side to side. Calculate the moving distances of mass m1 and m2 x1 and x2. (Let's say mass m1 and m2 are 1kg and K=1N/m respectively.)
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