A 50kg seawater buoy having a volume of 5m³ is to carry a load that is placed above the loading pan of the buoy. Determine the maximum safe loading capacity of the buoy in order to keep the load just above the water surface. The specific gravity of seawater is 1.28. Derive with the formula below, show the cancellation, explain the step by step and DRAW a free body diagram/figure. refer with this: PE1 + KE1 + U1 + WF1 + Q1 + W1 = PE2 + KE2 + U2 + WF2 + Q2 + W2 + E losses.
A 50kg seawater buoy having a volume of 5m³ is to carry a load that is placed above the loading pan of the buoy. Determine the maximum safe loading capacity of the buoy in order to keep the load just above the water surface. The specific gravity of seawater is 1.28. Derive with the formula below, show the cancellation, explain the step by step and DRAW a free body diagram/figure. refer with this: PE1 + KE1 + U1 + WF1 + Q1 + W1 = PE2 + KE2 + U2 + WF2 + Q2 + W2 + E losses.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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9. A 50kg seawater buoy having a volume of 5m³
is to carry a load that is placed above the loading pan of the buoy. Determine the maximum safe loading capacity of the buoy in order to keep the load just above the water surface. The specific
gravity of seawater is 1.28.
Derive with the formula below, show the cancellation, explain the step by step and DRAW a free body diagram/figure.
refer with this:
PE1 + KE1 + U1 + WF1 + Q1 + W1 = PE2 + KE2 + U2 + WF2 + Q2 + W2 + E losses.
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