1. Calculate (a) the thermal wave-length (in pm) and (b) the translational partition function of H...
If thermal properties reveal a sample of F2 gas to have a one-molecule translational partition function qtrans of 2.29⋅10^26, and a second sample of a pure, unknown diatomic homonuclear gas is found to have a qtrans of 1.45⋅10^26 at the same temperature and volume, what is the second gas? trans of 2.29. 104, and a second sample of a pure, unknown diatomic homonuclear gas is found to have a trans of 1.45 . 102 at the same temperature and If...
Determine the volume of a container for which the translational partition function for atomic hydrogen is 1.0 states per atom at a temperature of 273 K. Comment on your answer.
If thermal properties reveal a sample of N2 gas to have a one-molecule translational partition function qtrans of 1.45⋅10^26, and a second sample of a pure, unknown diatomic homonuclear gas is found to have a qtrans of 2.29⋅10^26 at the same temperature and volume, what is the second gas?
-2 points Calculate the translational partition function at (a) 300 K and (b) 600 K of a molecule of molar mass 280 g mol'" in a container of volume 2.30 cm2. Ger at 300 K Qu at 600 K Note: this i s a measure of the vast number of accessible microstates of translation available to a molecule under these conditions.
Consider translational motion of single molecule (mass = 5.314 * 10-26 kg) trapped in one-dimensional box potential ("particle in a box), which has a width of 5 cm. A) What is the energy difference between the two lowest quantized energy levels? B) The amount of classical translational thermal energy for a molecule confined in one dimension is 1/2kT where T is the temperature and k is the Boltzmann constant (1.381 * 10-23 J/K). If the temperature is 300 K, at...
3.) The wave function for a harmonic wave on a string is y(x,t) (0.001 m)sin[(62.8 m1)x (314 s1)t] (a.) What is the speed of the wave, and which direction does it travel? (b.) What is the wavelength? (c.) What is the frequency? (d.) What is the period? (e.) Suppose a piece of the string is clamped (held fixed) at two points 1.4 m apart. What are the longest three wavelengths of standing waves that can exist between the two points?...
When the temperature of a certain solid, rectangular object increases by Delta T, the length of one side of the object increases by 0.010% = 1.0 10^-4 of the original length. The increase in volume of the object due to this temperature increase is A. 0.01% = 1.0 10^-4 of the original volume. B. (0.010)^3 % = 0.0000010% = 1.0 10^-4 of the original volume. C. (1.0 10^-4)^3 = 0.0000000001% = 1.0 10^-12 of the original volume. D. 0.030% =...
Al is metal, silvery in colour, with a resistivity of 2.65 μΩ.cm at room temperature. it has the so-called face centred cubic (FCC) structure, in which the fractional coordinates of the atoms within the (conventional cubic, side length of a 4.046 A) unit cell are: (0,0,0), (12%,0), (12,0,%), (0,%,%) The intermetallic compound AbAu is bright purple in colour, has a melting point of 1060°C, is rather brittle, and has a resistivity of p-8 u2.cm.1 the repeating unit is also cubic...
Al is metal, silvery in colour, with a resistivity of 2.65 μΩ.cm at room temperature. it has the so-called face centred cubic (FCC) structure, in which the fractional coordinates of the atoms within the (conventional cubic, side length of a 4.046 A) unit cell are: (0,0,0), (12%,0), (12,0,%), (0,%,%) The intermetallic compound AbAu is bright purple in colour, has a melting point of 1060°C, is rather brittle, and has a resistivity of p-8 u2.cm.1 the repeating unit is also cubic...