In the system in the figure, K, L and P blocks are connected to each other by a rope. Of the blocks that started to move from the stationary state, the K block moves downward with ak = 0.1 x t, and the L block moves upward with = 0.6 acceleration. The unit of acceleration is m / 〖s〗 ^ 2. - When the velocity of the "P" block is zero again -Find the velocity of block "K" for this moment and the path it has taken up to this point.

In the system in the figure, K, L and P blocks are connected to each other by a rope. Of the blocks that started to move from the stationary state, the K block moves downward with ak = 0.1 x t, and the L block moves upward with = 0.6 acceleration. The unit of acceleration is m / 〖s〗 ^ 2. - When the velocity of the "P" block is zero again -Find the velocity of block "K" for this moment and the path it has taken up to this point.

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Question

In the system in the figure, K, L and P blocks are connected to each other by a rope. Of the blocks that started to move from the stationary state, the K block moves downward with a_k = 0.1 x t, and the L block moves upward with = 0.6 acceleration. The unit of acceleration is m / 〖s〗 ^ 2.

- When the velocity of the "P" block is zero again

-Find the velocity of block "K" for this moment and the path it has taken up to this point.