For many purposes we can treat butane (C,H10) as an ideal gas at temperatures above its boiling point of -1. °C. Suppose the pressure on a 8.0 m’ sample of butane gas at 11.0°C is reduced to one-third its initial value. yes Is it possible to change the temperature of the butane at the same time such that the volume of the gas doesn't change? no ? If you answered yes, calculate the new temperature of the gas. Round your answer to the nearest °C.

For many purposes we can treat butane (C,H10) as an ideal gas at temperatures above its boiling point of -1. °C. Suppose the pressure on a 8.0 m’ sample of butane gas at 11.0°C is reduced to one-third its initial value. yes Is it possible to change the temperature of the butane at the same time such that the volume of the gas doesn't change? no ? If you answered yes, calculate the new temperature of the gas. Round your answer to the nearest °C.

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter5: Gases

Section: Chapter Questions

Problem 104E: In the Mthode Champenoise, grape juice is fermented in a wine bottle to produce sparkling wine. The...

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For many purposes we can treat butane (C,H10) as an ideal gas at temperatures above its boiling point of -1. °C. Suppose the pressure on a 36.0 g sample of butane gas at 45.0°C is reduced to one-third its initial value. O yes Is it possible to change the temperature of the butane at the same time such that the volume of the gas doesn't change? O no If you answered yes, calculate the new temperature of the gas. Round your answer to the nearest °C.
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1. For many purposes we can treat butane (C,H10) as an ideal gas at temperatures above its boiling point of-1. °C. Suppose the pressure on a 89.0 g sample of butane gas at 31.0°C is reduced to one-third its initial value. Is it possible to change the temperature of the butane at the same time such that |O yes the volume of the gas doesn't change? no If you answered yes, calculate the new temperature of the gas. Round your answer to the nearest °C.
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16?
Consider the reaction: 2 NO(g) + Br2(g) =2 NOBr(g) A chemist placed 0.0322 mol of NO and 1.70 g of bromine (Br2) into a sealed 1.00 L reaction vessel and then allowed the reaction to reach equilibrium. The pressure of the NOBR at equilibrium at 25.0°C is 0.444 bar. (R = 0.08314 L·bar/mol· K and MW of Br2 is 159.808 g/mol.) Calculate the Kp. Incorrect, 1 attempt remaining Your submission: Feedback: Use PV=nRT to determine the initial pressures of the reactants. You can then determine the pressures of the reactants equilibrium by subtracting the pressure that reacted. Kp = P(NOBr)*/P(NO)²*P(Br)2 43.8 %3D