The system shown in the figure consider of a light , inextenslible cord, light, frictionless pulley, and blocks of equal mass. Notice that block `B` is attached to one of the pulleys. The system is initial held at rest so that the ground . The blocks are then released. Find the speed of block `A` at the moment the vertical separation of the blocks is `h`. A. `sqrt((6 gh)/(15))`B. `sqrt((8 gh)/(13))`C. `sqrt((8 gh)/(15))`D. `sqrt((6 gh)/(13))`

The system shown in the figure consider of a light , inextenslible cor

1.	The system shown in the figure consider of a light , inextenslible cord, light, frictionless pulley, and blocks of equal mass. Notice that block `B` is attached to one of the pulleys. The system is initial held at rest so that the ground . The blocks are then released. Find the speed of block `A` at the moment the vertical separation of the blocks is `h`. A. `sqrt((6 gh)/(15))`B. `sqrt((8 gh)/(13))`C. `sqrt((8 gh)/(15))`D. `sqrt((6 gh)/(13))`
Answer» Correct Answer - B When block `B` moves up by `1 cm` block `A` moves down by the `2 cm` and the sepration becomes `3 cm` . We then choose the final point to be when `B` has moved by `(h)/(3)` and has speed `(v_(A))/(2)`. Then `A` has moved down `(2h)/(3)` and has speed `v_(A)` : `Delta K + Delta U = 0` `(K_(A) + K_(B) +(U_(g))_(f) - (K_(A) +(K_(B) +U_(g))_(i) = 0` `(K_(A) +K_(B) + U_(g))_(i) +(K_(A) +(K_(B) + U_(g))_(f)` `0 + 0 + 0 = (1)/(2) mv_(A)^(2) + (1)/(2)m ((v_(A))/(2))^(2) + (mgh)/(3) - (mg 2h)/(3)` `(mgh)/(3) = (5)/(8) mv_(A)^(2) implies v_(A) = sqrt((8gh)/(15))`

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