Calculate the collision frequency for H2 at STP (use a collision diameter of 2.5 Å).

The diameter of a H2 molecule is about 2.5 Å. For H2 gas at 0o C...

The diameter of a H2 molecule is about 2.5 Å. For H2 gas at 0o C and 1 atm, calculate the following. Assume ideal gas. (Note: For the equations that I gave you in class, σ is the diameter. For the equations in the text, the symbol σ is used for the collision cross-section, equal to 4πr 2 , where r is the radius of the molecule. If you decide to use the equations in textbook rather than the ones...

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...

1.An atom has a diameter of 1.00 Å and the nucleus of that atom has a...

1.An atom has a diameter of 1.00 Å and the nucleus of that atom has a diameter of 2.50×10−5 Å Determine the fraction of the volume of the atom that is taken up by the nucleus. Assume the atom and the nucleus are a sphere. fraction of atomic volume: 2.Calculate the density of a proton, given that the mass of a proton is 1.0073 amu and the diameter of a proton is 1.68×10−15 m density:

COmbusting 44.8L of H2(g) with 22.4L of O2(g) (both at STP) results in the formation of...

COmbusting 44.8L of H2(g) with 22.4L of O2(g) (both at STP) results in the formation of 44.8L of H2O(g) if the reaction is maintained at the same condition (STP) and goes to completion. Given the heat of formation of water (delta Hf=-241.8 kJ/mol) calculate: a) the PV work b) the heat evolved c) the change in internal energy of the system and d) the change in internal energy of the surroundings.

Use the molar volume to calculate each of the following at STP: Calculate the number of...

Use the molar volume to calculate each of the following at STP: Calculate the number of moles of CO2 in 3.60 L of CO2 gas. Calculate the volume, in liters, occupied by 0.600 mol of He gas. Calculate the volume, in liters, occupied by 8.60 g of O2 gas. Calculate the number of grams of Ne contained in 13.2 L of Ne gas.

Calculate the volume of 68.0 g of NH3 gas at standard temperature and pressure (STP). Use...

Calculate the volume of 68.0 g of NH3 gas at standard temperature and pressure (STP). Use a molar mass with at least as many significant figures as the data given.

To water the yard, you use a hose with a diameter of 2.5 cm. Water flows...

To water the yard, you use a hose with a diameter of 2.5 cm. Water flows from the hose with a speed of 1.1 m/s. If you partially block the end of the hose so the effective diameter is now 0.55 cm, with what speed does water spray from the hose? Answer in m/s

use the molar voume to calculate each of the following at STP A) the number of...

use the molar voume to calculate each of the following at STP A) the number of moles CO2 in 4.00 L of CO1 gas B) the volume, in liters, occupied by 0.420 mole of He Gas C) the volume, in liters, occupied by 6.40 g of O2 gas D) the number of grams of Ne contained in 11.2 L of Ne gas Provide formulas and go step by step please

1. Use the molar volume to calculate each of the following at STP: A.Calculate the number...

1. Use the molar volume to calculate each of the following at STP: A.Calculate the number of moles of CO2 in 1.40 L of CO2 gas. Express your answer to three significant figures and include the appropriate units. B.Calculate the volume, in liters, occupied by 0.200 mol of He gas.Express your answer to three significant figures and include the appropriate units. C.Calculate the volume, in liters, occupied by 4.00 g of O2 gas.Express your answer to three significant figures and...

The hose has a diameter of 2.5 cm, but the nozzle has a diameter of only...

The hose has a diameter of 2.5 cm, but the nozzle has a diameter of only 1.10 cm. The water that comes out of the hose fills a container of 25 Len 1.50 min. Calculate: a- the volume flow flowing through the hose b- the velocity of the water leaving the nozzle c- if the pressure external to the hose is atmospheric, what is the absolute pressure of the water inside the hose?