The partial pressure of each of the gases in the undersea habitat which is 58.5 m below the sea level with the pressure of 6.91 atm has to be calculated Concept Introduction: Partial Pressure: Dalton’s law of partial pressure states that “the total pressure (P) of the mixture is equal to the sum of the partial pressures (P A , P B , P C ..... ) of all the component gases (A, B, C ...... ) present in the mixture” and is given as, P = P A + P B + P C + ....... The ideal gas law for the individual gas component A is given as, P A V = n A RT Mole fraction: Mole fraction of a component gas is defined as “the fraction of moles of that component in the total moles of gas mixture” and is given as, Mole fraction of A = n A n = P A P
The partial pressure of each of the gases in the undersea habitat which is 58.5 m below the sea level with the pressure of 6.91 atm has to be calculated Concept Introduction: Partial Pressure: Dalton’s law of partial pressure states that “the total pressure (P) of the mixture is equal to the sum of the partial pressures (P A , P B , P C ..... ) of all the component gases (A, B, C ...... ) present in the mixture” and is given as, P = P A + P B + P C + ....... The ideal gas law for the individual gas component A is given as, P A V = n A RT Mole fraction: Mole fraction of a component gas is defined as “the fraction of moles of that component in the total moles of gas mixture” and is given as, Mole fraction of A = n A n = P A P
Solution Summary: The author explains that the partial pressure of each of the gases in the undersea habitat, which is 58.5 m below the sea level, has to be calculated.
Study of body parts and their functions. In this combined field of study, anatomy refers to studying the body structure of organisms, whereas physiology refers to their function.
Chapter 5, Problem 5.86QP
Interpretation Introduction
Interpretation:
The partial pressure of each of the gases in the undersea habitat which is 58.5 m below the sea level with the pressure of 6.91 atm has to be calculated
Concept Introduction:
Partial Pressure:
Dalton’s law of partial pressure states that “the total pressure (P) of the mixture is equal to the sum of the partial pressures(PA, PB, PC.....) of all the component gases(A, B, C......) present in the mixture” and is given as,
P = PA + PB + PC + .......
The ideal gas law for the individual gas component A is given as,
PAV = nART
Mole fraction:
Mole fraction of a component gas is defined as “the fraction of moles of that component in the total moles of gas mixture” and is given as,
the rotational constant of HI is 6.511 cm-1. (i)What is the characteristic rotational temperature of HI? (ii) Evaluate the rotational partition function and the mean rotational energy of HI at 298K. Note that T=298K is much larger than the characteristic rotational temperature of HI.
3. The ability to roll your tongue (R) is a dominant trait. A woman who cannot roll her tongue (
) has a baby with a man who is homozygous dominant for this trait (
R = can roll tongue, r = cannot roll tongue
).
Possibility 1:
Possibility 2:
Possibility 3:
Possibility 4:
Genotype Phenotype
Don't used hand raiting and don't used Ai solution
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