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Mullis1 Gay Lussac’s law of combining volumes of gases When gases combine, they combine in simple whole number ratios. These simple numbers are the coefficients.

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Presentation on theme: "Mullis1 Gay Lussac’s law of combining volumes of gases When gases combine, they combine in simple whole number ratios. These simple numbers are the coefficients."— Presentation transcript:

1 Mullis1 Gay Lussac’s law of combining volumes of gases When gases combine, they combine in simple whole number ratios. These simple numbers are the coefficients of the balanced equation. N 2 + 3H 2 2NH 3 3 volumes of hydrogen will produce 2 volumes of ammonia

2 Mullis2 Avogadro’s Law and Molar Volume of Gases Equal volumes of gases (at the same temp and pressure) contain an equal number of molecules. In the equation for ammonia formation, 1 volume N 2 = 1 molecule N 2 = 1 mole N 2 One mole of any gas will occupy the same volume as one mole of any other gas Standard molar volume of a gas is the volume occupied by one mole of a gas at STP. Standard molar volume of a gas is 22.4 L.

3 Mullis3 Sample molar volume problem A chemical reaction produces 98.0 mL of sulfur dioxide gas at STP. What was the mass, in grams, of the gas produced? ***Turn mL to L first! (This way, you can can use 22.4 L) 98 mL 1 L 1 mol SO 2 64.07g SO 2 = 0.280g SO 2 1000 mL 22.4 L 1 mol SO 2

4 Mullis4 Sample molar volume problem 2 What is the volume of 77.0 g of nitrogen dioxide gas at STP? 77.0 g NO 2 1 mol NO 2 22.4 L = 37.5 L NO 2 46.01g NO 2 1 mol NO 2

5 Mullis5 Ideal Gas Law Mathematical relationship for PVT and number of moles of gas PV = nRT n = number of moles R = ideal gas constant P = pressure V = volume in L T = Temperature in K R = 0.0821 if pressure is in atm R = 8.314 if pressure is in kPa R = 62.4 if pressure is in mm Hg

6 Mullis6 Sample Ideal Gas Law Problem What pressure in atm will 1.36 kg of N 2 O gas exert when it is compressed in a 25.0 L cylinder and is stored in an outdoor shed where the temperature can reach 59°C in summer? V = 25.0 LT = 59+273 = 332 K P = ? R = 0.0821 L-atm n = 1.36 kg converted to moles mol-K 1.36 kg N 2 O 1000 g 1 mol N 2 O = 30.90 mol N 2 O 1 kg 44.02 g N 2 O PV = nRT P = 30.90 mol x 0.0821 L-atm x 332 K= 33.7 atm 25.0 L mol-K

7 Mullis7 Volume-Volume Calculations Volume ratios for gases are expressed the same way as mole ratios we used in other stoichiometry problems. N 2 + 3H 2 2NH 3 Volume ratios are: 2 volumes NH 3 3 volumes H 2 2 volumes NH 3 3 volumes H 2 1 volume N 2 1 volume N 2

8 Mullis8 Sample Volume-Volume Problem How many liters of oxygen are needed to burn 100 L of carbon monoxide? 2CO + O 2 2CO 2 100 L CO 1 volume O 2 = 50 L O 2 2 volume CO

9 Mullis9 Sample Volume-Volume Problem 2 Ethanol burns according to the equation below. At 2.26 atm and 40° C, 55.8 mL of oxygen are used. What volume of CO 2 is produced when measured at STP? C 2 H 5 OH + 3O 2 2CO 2 + 3H 2 O Number moles oxygen under these conditions is? PV = nRT: 2.26 atm (.0558 L ) = n = 0.0049 mol O 2 ( 0.0821 L-atm )(313K ) mol-K 0.0049 mol O 2 2 mol CO 2 22.4 L =0.073 L CO 2 3 mol O 2 1 mol CO 2

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