Consider a sample of H2 and N2 at 1.00 bar and 25oC with mole fraction (X)...

The collision diameter, d, of an H2 molecule is about 0.25 nm = 2.5 * 10^-10...

The collision diameter, d, of an H2 molecule is about 0.25 nm = 2.5 * 10^-10 m. For H2 gas at 0 degrees celsius and 1 bar, calculate the following: a. Root-mean-square velocity b. The translational kinetic energy of 1 mol of H2 molecules c. The number of H2 molecules in 1 mL of the gas d. The mean free path e. The number of collisions each H2 molecule undergoes in 1 s f. The total number of intermolecular collisions...

at a particular temperature, K= 1.00 x 102 for the reaction H2 (g) + I2 (g)...

at a particular temperature, K= 1.00 x 102 for the reaction H2 (g) + I2 (g) <-> 2HI (g) In an experiment, 1.00 mole of H2, 1.00 mole of I2, and 1.00 mole of HI are introduced into a 1.00-L container. calculate the concentrations of all species when equilibrium is reached. please do step by step

A gaseous mixture contains 418.0 Torr of H2(g), 371.7 Torr of N2(g), and 88.9 Torr of...

A gaseous mixture contains 418.0 Torr of H2(g), 371.7 Torr of N2(g), and 88.9 Torr of Ar(g). Calculate the mole fraction, X, of each of these gases.

A gaseous mixture contains 414.0 Torr of H2(g), 373.5 Torr of N2(g), and 90.1 Torr of...

A gaseous mixture contains 414.0 Torr of H2(g), 373.5 Torr of N2(g), and 90.1 Torr of Ar(g). Calculate the mole fraction, X, of each of these gases. Xh2 = ? Xn2 = ? Xar = ?

A gaseous mixture contains 426.0 Torr of H2(g), 362.9 Torr of N2(g), and 80.1 Torr of...

A gaseous mixture contains 426.0 Torr of H2(g), 362.9 Torr of N2(g), and 80.1 Torr of Ar(g). Calculate the mole fraction, X, of each of these gases. XN2 XH2 XAr

A. What is the mole fraction of each component in a mixture of 12.63 g of...

A. What is the mole fraction of each component in a mixture of 12.63 g of H2, 66.89 g of N2, and 19.55 g of NH3? Express your answers using three significant figures separated by commas. B. A special gas mixture used in bacterial growth chambers contains 1.00 % by weight CO2 and 99.0 % O2. What is the partial pressure (in atmospheres) of each gas at a total pressure of 0.871 atm ? Enter your answers numerically separated by...

What is the mole fraction, X, of solute and the molality, m (or b), for an...

What is the mole fraction, X, of solute and the molality, m (or b), for an aqueous solution that is 19.0% NaOH by mass? hint: Molality, m (or b), is the number of moles of solute per kilogram of solvent. Mole fraction, X, is the number of moles of a component divided by the total number of moles. Choose an arbitrary mass of solution, such as 100 g, and determine the masses of NaOH and H2O. Then convert those values...

Part A) A gaseous mixture contains 418.0 Torr of H2(g), 328.7 Torr of N2(g), and 79.9...

Part A) A gaseous mixture contains 418.0 Torr of H2(g), 328.7 Torr of N2(g), and 79.9 Torr of Ar(g). Calculate the mole fraction, X, of each of these gases. XH2=. XN2=. XAr= Part B) A 0.246 gram sample of a metal, M, reacts completely with sulfuric acid according to: M(s)+ H2SO4(aq) --> MSO4 (aq) + H2(g) A volume of 257 mL of hydrogen is collected over water; the water level in the collecting vessel is the same as the outside...

Consider a solution containing liquids A and B where the mole fraction of B is 0.60....

Consider a solution containing liquids A and B where the mole fraction of B is 0.60. Assuming ideality, calculate the mole fraction of A in the vapor at equilibrium with this solution at 25°C. (The vapor pressures of pure liquid A and B at 25°C are 117.7 torr and 400.0 torr, respectively.) A) 0.16 B) 196 C) 0.31 D) 3.40 ´ 10–3 E) 4.90 ´ 10–3 The freezing point (Tf) for t-butanol is 25.50°C and Kf is 9.1°C/m. Usually t-butanol...

Consider sample data with x bar = 16 and s = 4. (For each answer, enter...

Consider sample data with x bar = 16 and s = 4. (For each answer, enter an exact number.) (a) Compute the coefficient of variation (as a percent). % (b) Compute a 75% Chebyshev interval around the sample mean. Lower Limit Upper Limit