An undersea research chamber is spherical with an external diameter of 4.70 m. The mass of the chamber, when occupied, is 54300 kg. It is anchored to the sea bottom by a cable. The density of seawater is 1025 kg/m3. Part A

What is the buoyant force on the chamber?

Part B

What is the tension in the cable?

Question

Jagger Cordova

Physics

5 August, 23:45

An undersea research chamber is spherical with an external diameter of 4.70 m. The mass of the chamber, when occupied, is 54300 kg. It is anchored to the sea bottom by a cable. The density of seawater is 1025 kg/m3. Part A

What is the buoyant force on the chamber?

Part B

What is the tension in the cable?

+1

Answers (1)

Know the Answer?

Eduardo Livingston · Answer 1

Answer: a) 557.3kN b) 543kN

Explanation:

Buoyant force = weight of water displaced.

Formula for buoyant force = mg * (density of fluid/density of object)

Density of fluid = density of sea water = 1025kg/m³

Mass of the chamber (m) = 54300kg

g = acceleration due to gravity = 10m/s²

Density of chamber = mass/volume

Where volume of sphere = 4/3Πr³

radius = 4.70/2 = 2.35m

Volume = 4/3*Π (2.35) ³

Volume = 54.37m³

Density of chamber = 54300/54.37

= 998.7kg/m³

Substituting the values into the formula for buoyant force

Buoyant force = 54300*10*{1025/998.7}

= 557299N

= 557.3kN

b) Tension in the cable = mass of cable * acceleration due to gravity

= 54300*10 = 543000N or 543kN.