Looking to find the molarity and molar mass of TEABF4 that has the following: Pressure =...

Lab 14 Molar Volume of Gases: Find the molar mass of the NaHCO3 using the following...

Lab 14 Molar Volume of Gases: Find the molar mass of the NaHCO3 using the following info, show calculations: Barometric pressure (atm): 1.013 Temperature (°C): 18 Mass of Chemical (g): 1.0g Water Displaced: 206mL Find the molar mass of Na2CO3 using the following info, show calculations: Barometric pressure (atm): 1.013 Temperature (°C): 18 Mass of Chemical (g): 1.0g Water Displaced: 168mL

Problem 2. (40 pts) Water vapor pressure at room temperature. a. (5) The molar heat of...

Problem 2. (40 pts) Water vapor pressure at room temperature. a. (5) The molar heat of boiling water is +40.66 kJ/mol (= deltaHº) at 373 K and 1 atm. Find the entropy of boiling. b. (10 pts) Assume that deltaH and deltaS stay constant at their values of deltaHº and Sº which are determined at 373 K, respectively, and do not change as a function of temperature. Show that deltaGº293 at 20 ºC ( = 293 K) and at 1...

At temperature of 273 K and pressure of 1.00 × 10−2 atm, the density of a...

At temperature of 273 K and pressure of 1.00 × 10−2 atm, the density of a monatomic gas is 1.24 × 10−5g/cm3. Also, we know 1 atm = 1.01 × 105 Pa, R = 8.31 J/mol.K and ? = 1.38 × 10−23 J/K. (a) Find ???? for the gas particles. (b) Find the molar mass of the gas.

1a.  From the following vapor pressure data for octane, an estimate of the molar heat of vaporization...

1a.  From the following vapor pressure data for octane, an estimate of the molar heat of vaporization of C8H18 is  kJ/mol. P, mm Hg T, Kelvins 100 339 400 377 1b. The normal boiling point of liquid chloroform is 334 K. Assuming that its molar heat of vaporization is constant at 29.9 kJ/mol, the boiling point of CHCl3 when the external pressure is 1.34 atm is  K. 1c. The vapor pressure of liquid butanol, C4H9OH, is 100. mm Hg at 343 K. A...

1. A sample of gas with an initial volume of 28.2 L at a pressure of...

1. A sample of gas with an initial volume of 28.2 L at a pressure of 728 mmHg and a temperature of 301 K is compressed to a volume of 14.9 L and warmed to a temperature of 375 K. What is the final pressure of the gas? 2. A gas sample with a volume of 5.3 L has a pressure of 725 mmHg at 24C. What is the pressure of the sample if the volume remains at 5.3 L...

1.00 g of 20Ne (molar mass 20.2 g/mol) in the gas phase is contained inside a...

1.00 g of 20Ne (molar mass 20.2 g/mol) in the gas phase is contained inside a sealed cylinder with a piston that is free to slide up and down. Initially, the gas is at atmospheric pressure and occupies a volume of 1500 cm3 (state 1). The temperature of the gas then increases to 500 K (state 2). Next, a rod is inserted which holds the piston fixed in place, and the gas cools to a temperature of 300 K (state...

A welder using a tank of volume 7.90×10−2 m3 fills it with oxygen (with a molar...

A welder using a tank of volume 7.90×10−2 m3 fills it with oxygen (with a molar mass of 32.0 g/mol ) at a gauge pressure of 3.30×105 Pa and temperature of 35.0 ∘C. Remember that the guage pressure of the gas in the tank is the difference between the absolute pressure of the gas inside the tank and the pressure outside the tank, in this case 1 atm. So the absolute pressure is equal to the guage pressure plus 1...

Lab work: empty flask mass: 88.00 grams 2.00 atm pressure added mass: 88.358 g mass of...

Lab work: empty flask mass: 88.00 grams 2.00 atm pressure added mass: 88.358 g mass of air: .358 g pressure: 2 atm Question 1: How many moles of air were in the Erlenmeyer flask when the total air pressure was 2.00 atm? A. 0.179 mol B. 0.0155mol C. 0.0124mol D. 0.00620mol Question 2: Given the data you collected when adding 2.00 atm of air to the Erlenmeyer flask, what is the molar mass of air? A. 17.9g/mol B. 35.8g/mol C....

Calculate the change in the molar Gibbs energy of hydrogen gas when its pressure is increased...

Calculate the change in the molar Gibbs energy of hydrogen gas when its pressure is increased isothermally from 1.0 atm to 100.0 atm at 298 K.

For each of the following, provide the appropiate value: a. What is the molar mass of...

For each of the following, provide the appropiate value: a. What is the molar mass of a non-ionizing, non-volatile solid that when 14.2 g is dissolved in water to make 100.0 mL of solution creats a solution with an osmotic pressure of 5.17 atm at 25.0 oC b. What is the freezing point of an aqueous solution made by dissolving 0.158 mole of MgCl2 in 100.0 g of water? Kf = 1.86 oC/m c. What is the total vapor pressure...