A ball of radius R-63cm and mass M-0.35kg is compressed against a spring of spring constant k-375N/m by an amount x-49cm measured from the equilibrium of the spring as shown in the figure below. The system is released from rest and when the spring reaches its equilibrium position the ball loses contact with the spring. Assume the ball rolls without slipping along the 0-690 incline after it is released. Find the translational speed of the ball after it travels d= 84cm from the point of losing contact with the spring. Isphere =2/5 MR2. Take g=9.8 m/s2 and express your answer using two decimal places. MR/ www
A ball of radius R-63cm and mass M-0.35kg is compressed against a spring of spring constant k-375N/m by an amount x-49cm measured from the equilibrium of the spring as shown in the figure below. The system is released from rest and when the spring reaches its equilibrium position the ball loses contact with the spring. Assume the ball rolls without slipping along the 0-690 incline after it is released. Find the translational speed of the ball after it travels d= 84cm from the point of losing contact with the spring. Isphere =2/5 MR2. Take g=9.8 m/s2 and express your answer using two decimal places. MR/ www
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