(ii) The block is then held fully submerged at 2.0 m water depth and then released from rest. Determine the ascending acceleration of the block just after release.

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Answer question ii)
(ii) The block is then held fully submerged at 2.0 m water depth and then
released from rest. Determine the ascending acceleration of the block just
after release.
Transcribed Image Text:(ii) The block is then held fully submerged at 2.0 m water depth and then released from rest. Determine the ascending acceleration of the block just after release.
(b) In the figure below, a wooden block of densty = 800 kg / m
on a water of density =1000kg / m.
is seen floating
The block height His 20 cm.
(i) Calculate the depth h of the block submerged in the water.
P block=800kg/m3
P water=1000kg/m3
Transcribed Image Text:(b) In the figure below, a wooden block of densty = 800 kg / m on a water of density =1000kg / m. is seen floating The block height His 20 cm. (i) Calculate the depth h of the block submerged in the water. P block=800kg/m3 P water=1000kg/m3
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