Determine the total molecular partition function for gaseous H2O at 1000. K confined to a volume...

Determine the total molecular partition function for gaseous H2O at 1000. K confined to a volume of 1.30 cm3 . The rotational constants for water are BA = 27.8 cm−1, BB = 14.5 cm−1, and BC = 9.95 cm−1. The vibrational frequencies are 1615, 3694, and 3802 cm−1. The ground electronic state is nondegenerate

Solutions

Expert Solution

queen_honey_blossom answered 1 year ago

Next > < Previous

Related Solutions

Determine the total molecular partition function for gaseous H2O at 1000. K confined to a volume...

Determine the total molecular partition function for gaseous H2O at 1000. K confined to a volume of 1.20 cm3 . The rotational constants for water are BA = 27.8 cm−1, BB = 14.5 cm−1, and BC = 9.95 cm−1. The vibrational frequencies are 1615, 3694, and 3802 cm−1. The ground electronic state is nondegenerate.

(a) What is the total volume of gaseous products, measured at 350°C and 689 torr, when...

(a) What is the total volume of gaseous products, measured at 350°C and 689 torr, when an automobile engine burns 103 g of C8H18 (a typical component of gasoline)? L (b) For part (a), the source of O2 is air, which is about 78.0% N2, 21.0% O2, and 1.0% Ar by volume. Assuming all the O2 reacts, but no N2 or Ar does, what is the total volume of gaseous exhaust?

Calculate the vibrational partition function for CS2 at 500 K given wavenumbers 658 cm-1 (symmetric stretch),...

Calculate the vibrational partition function for CS2 at 500 K given wavenumbers 658 cm-1 (symmetric stretch), 397 cm-1 (bend, two modes), and 1535 cm-1 (asymmetric stretch).

For H2O, determine the specific volume at the indicated state, in m3/kg. (a) T = 400°C,...

For H2O, determine the specific volume at the indicated state, in m3/kg. (a) T = 400°C, p = 20 MPa. (b) T = 120°C, p = 20 MPa. (c) T = 40°C, p = 2 MPa. I have figured out how to do A, but can't get the correct answer for B or C. All the examples I am finding are with numbers that are listed already on the charts, and mine are not so I need to approach the...

For H2O, determine the specific volume at the indicated state, in m3/kg. (a) T = 480°C,...

For H2O, determine the specific volume at the indicated state, in m3/kg. (a) T = 480°C, p = 20 MPa. (b) T = 160°C, p = 20 MPa. (c) T = 40°C, p = 2 MPa.

determine the range and domain of the following: the function k defined by k(x)= square root...

determine the range and domain of the following: the function k defined by k(x)= square root x-3

A square-bottomed box with no top has a fixed volume of 1000 ft^3 . Determine the...

A square-bottomed box with no top has a fixed volume of 1000 ft^3 . Determine the dimensions of the box that would minimize the amount of material required to make the box. Show the units and justify your answer.

A swimmer is peacefully floating motionless in a lake. Determine the fraction of the total volume...

A swimmer is peacefully floating motionless in a lake. Determine the fraction of the total volume of her body which remains visible above the water, given that the density of her body is 920 kg/m3, and the density of the lake water is 1025 kg/m3.

1. A) Determine the ratio of waste to cover material (volume basis) as a function of...

1. A) Determine the ratio of waste to cover material (volume basis) as a function of the initial compacted specific weight for a solid waste stream of 1000 tonnes/day to be placed in 2m lifts within a progressive cell width of 30m. The slope of the working face is 3h: 1v. Assume that the waste is compacted initially to an average compaction rate of a) 700kg/m3 and b) 800kg/m3. The daily cover thickness is 200mm. i. Determine the daily volume...

1. Determine the value for the constant "k" that will make the function below a PDF....

1. Determine the value for the constant "k" that will make the function below a PDF. f(x) = k x^4 for x in (0,2) and f(x) = 0, for all other x ; k = A. 8/3 B. 3/8 C. 3/64 D. 22/7 E. None of these 2. In a dice tossing random experiment , a red die and a green die are thrown independently . Consider as a random variable, X, the range in showing dots. for example if...

Subjects