Concept explainers
(a)
Interpretation:
Calculate the body weight and the body volume of the man.
Concept introduction:
Archimedes’ Principle is defined as:
The upward buoyant force that is exerted on a body immersed in a fluid is equal to the weight of the fluid that the body displaces or weight of the body immersed in a fluid.
This can be rewritten as,
Buoyant force (up) = Weight of block (down)
The specific gravity of the liquid is 0.996.
(b)
Interpretation:
Assume the body can be divided into nonfat and fat components. Derive an expression for the ratio of the mass of fat to mass of the whole body.
Concept introduction:
Assume the body can be divided into nonfat and fat components and the following notations are defined,
Fraction of total body mass that is fat =
Average density of the whole body =
Density of the fat component =
Density of the nonfat component =
Mass of the fat component =
Mass of the body =
Volume of the fat component =
Volume of the body =
This problem can be solved by, first derive expressions for the three densities then eliminate volumes algebraically so you can approach the final answer.
(c)
Interpretation:
Calculate the fraction of fat in a human body for the given case.
Concept introduction:
Assume the body can be divided into nonfat and fat components. The fraction of fat can be calculated using the following relationship.
Where,
Fraction of total body mass that is fat =
Average density of the whole body =
Density of the fat component =
Density of the nonfat component =
(d)
Interpretation:
Improve the estimation of
Concept introduction:
Assume the body can be divided into nonfat and fat components. The fraction of fat can be calculated using the following relationship.
Where,
Fraction of total body mass that is fat =
Average density of the whole body =
Density of the fat component =
Density of the nonfat component =
The above relationship includes the gas in tract, sinuses and lungs. The total volume is 1.4 liters. Assume that the mass of gas is negligible.
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Chapter 3 Solutions
Elementary Principles of Chemical Processes, Binder Ready Version
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