HEEELP !!! 3. Bernouilli Equation (6 pts) A ship is floating on a lake. The inside...
help!! please!! 3. Bernouilli Equation (6 pts) A ship is floating on a lake. The inside of the ship is empty and open to the atmosphere. The hull has a hole in it which is below the water line, so water leaks into the ship. The area of the hole is 0.0085 m² and it is located 2.0 m below the surface of the lake. (a) What is the velocity of the water coming in through the hole? (b) What...
9. An empty canoe is floating by a dock in a lake. The bottom of the canoe has a surface area of 2.70 m2. With nothing in it, the canoe displaces only 2.0 cm depth of water. Then, the canoe is filled up with gear for a camping trip. Once the canoe is fully loaded, it displaces 30.0 cm depth of water. How much more buoyant force is exerted on the canoe by the water when it is fully loaded,...
A barge floating in fresh water (p=1000 kg/m3) is shaped like a hollow rectangular prism with base area A=450 m2 and height H=2.0 m. When empty the bottom of the barge is located H0=0.55 m below the surface of the water. When fully loaded with coal the bottom of the barge is located H1 = 1.4 m below the surfacePart (a) Find the mass of the coal in kilograms. Part (b) How far would the barge be submerged (in meters) if...
A barge floating in fresh water (Q = 1000 kg/m) is shaped like a hollow rectangular prism with base area A = 750 m2 and height H=2.0 m. When empty the bottom of the barge is located Ho=0.55 m below the surface of the water. When fully loaded with coal the bottom of the barge is located H=1.05 m below the surface. Part (a) Select the correct free-body diagram for the barge when it is empty.Part (b) Write an equation for...
Need part B. The answer is none of these( 0.5136 , 1.41 , 0.64) (10%) Problen 8: A barge floating in fresh water (e = 1000 kg/m3) is shaped like a hollow rectangular prism with base area A 550 m2 and height H = 2.0 m. when empty the bottom of the barge is located Ho = 045 m below the surface of the water. When fully loaded with coal the bottom of the barge is located Hi - 135...
A 2L bottle is filled with water and has a 2mm diameter hole in the side 2cm from the bottom and the top is open to the atmosphere. a) What is the velocity of the water stream coming out of the hole when the water is 10cm above the hole? Treat the water as an ideal fluid obeying Bernoulli's equation. Additionally, you may assume that the flow is slow enough that the velocity of the water at the top surface...
Problem 3 (4 pts.). A bathyscaphe (a small free-diving self-propelled deep-sea submersible), is a sphere of radius RE 1.5 m located 873.5 m below the sea level. a) What is the pressure exerted on its surface (here you can neglect the size of the bathyscaphe compared to the depth of its immersion) and the buoyant force acting on it in the water to) Il a small leak is opened at the top of the bathyscaphe, with what speed will the...
Problem 3 (4 pts.). A bathyscaphe (a small free-diving self-propelled deep-sea submersible), is a sphere of radius R- 1.5 m located 873.5 m below the sea level. a what is the pressure exerted on its surface (here you can neglect the size of the bathyscape compared to the depth of its immersion) and the buoyant force acting on it in the water? (6) If a small leak is opened at the top of the bathyscaphe, with what speed will the...
write steps Problem 3 (4 pts.). A bathyscaphe (a small free-diving self-propelled deep-sea submersible), is a sphere of radius R- 1.5 m located 873.5 m below the sea level. a) what is the pressure exerted on its surface (here, you can neglect the size of the bathyscaphe compared to the depth of its immersion) and the buoyant force acting on it in the water (b) If a small leak is opened at the top of the bathyscaphe, with what speed...
Quickly answer all parts of the question please Problem 3 (4 pts.). A bathyscaphe (a small free-diving self-propelled deep-sea submersible), is a sphere of radius R- 1.5 m located 873.5 m below the sea level. (a) What is the pressure exerted on its surface (here you can neglect the size of the bathyscaphe compared to the depth of its immersion) and the buoyant force acting on it in the water (6) If a small leak is opened at the top...