2.4.A homogeneous square log, whose each side is 1.3 meters is 5.7 m in length and displaces4.8768 tonnes when floating in water of RD 1.012. Calculate the distance between thecentre of gravity and centre of buoyancy.A vessel is floating at 7.5 m mean draft in dock water of RD 1.010. TPC 22 tonnes andFWA 180 mm. The maximum permissible draft in SW is 8.5 m. Find the cargo that canstill be loaded.A chin is lying at the river mouth in watFRD 1015 and displacement of 17,500 tonnes.

Given: The square's side length is equal to 1.3 metres.The log's length (L) equals 5.7 metres.Water…

Answered: 2. 4. A homogeneous square log, whose…

Similar questions

1. A capillary tube of inside diameter d=6mm connects tank A and open container B as shown in Fig.2. The liquid in A,B and capillary CD is water having a specific weight y=9780 N/m³ and a viscosity of μ=0.0008N s/m². The pressure PA-34.5 kPa gage. Neglecting the minor losses at C and D, determine the flow rate Q through the capillary tube. Assume laminar flow from A to B and use h=32μLV/yd² for the friction loss, where V is the water velocity through the capillary tube. (2) Container B 1.4 m Datum 1-4.3 m 45° D (1) Air Tank A Im 200151816
The aqueous humor in a person's eye is exerting a force of 0.135 N on the 1.27 cm2 area of the cornea. a. What pressure is this in mm Hg?
What increase in pressure is required to decrease the volume of 200L of water by 0.004percent? Given B=2100M Pa.
AST Water is flowing in the pipe shown in the figure below, with the 8.20-cm diameter at point 1 tapering to 3.85 cm at point 2, located y 12.5 cm below point 1. The water pressure at point 1 is 3.20 x 10 Pa and decreases by 50% at point 2. Assume steady, ideal flow. What is the speed of the water at the following points? (a) point 1 x Your response is within 10% of the correct value. This may be due to roundoff error, or you could have a mistake in your calculation Carry out all intermediate results to at least four-digit accuracy to minimize roundoff error. m/s (b) point 2 x Your response is within 10% of the correct value. This may be due to roundoff error, or you could have a mistake in your calculation. Carry out all intermediate results to at least four-digit accuracy to minimize roundoff error. m/s
4.0 mm 16. Consider the following diagram. (let air be an ideal, incompressible fluid) 2.0 cm 1200 cm'/s a. If the air is found to have a flow rate of 1200 cm3/s as it leaves the 4.00 mm diameter pipe, what is the velocity of the air in both segments of the pipe? b. If the density of air is 1.28 kg/m3 and the end of the pipe on the right opens up to the atmosphere, what is the pressure of the pipe at the 2.00 cm diameter section? C. If the fluid in the bottom of the U-tube is mercury with a density of 13,600 kg/m3 what is the difference between the surface levels of both sides of the tube, marked as h in the diagram?
1. Find kinetic energy per cubic meter of flowing blood (V =1 m') in aorta for individual at Q = 5 liter/min, radius of aorta 1 cm. The density of blood is rest. Suppose flow rate is about p-1.05-10' kg/m. R =