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Science Chemistry Chemical Principles: The Quest for Insight

Volume of CO 2 and NH 3 gases needed to produce 1.50 kg urea has to be determined. Concept Introduction: Ideal gas law can be represented as equation for state for any imaginary gas. Expression for ideal gas equation is as follows: P V = n R T Here, P is pressure of the gas. V is volume of gas. n denotes moles of a gas. R is gas constant. T is temperature of gas.

Volume of CO 2 and NH 3 gases needed to produce 1.50 kg urea has to be determined. Concept Introduction: Ideal gas law can be represented as equation for state for any imaginary gas. Expression for ideal gas equation is as follows: P V = n R T Here, P is pressure of the gas. V is volume of gas. n denotes moles of a gas. R is gas constant. T is temperature of gas.

Solution Summary: The author explains that ideal gas law can be represented as equation for state for any imaginary gas.

Chemical Principles: The Quest for Insight

Chemical Principles: The Quest for Insight

7th Edition

ISBN: 9781464183959

Author: Peter Atkins, Loretta Jones, Leroy Laverman

Publisher: W. H. Freeman

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Question

Chapter 3, Problem 3C.14E

Interpretation Introduction

Interpretation:

Volume of CO2 and NH3 gases needed to produce 1.50 kg urea has to be determined.

Concept Introduction:

Ideal gas law can be represented as equation for state for any imaginary gas. Expression for ideal gas equation is as follows:

PV=nRT

Here,

P is pressure of the gas.

V is volume of gas.

n denotes moles of a gas.

R is gas constant.

T is temperature of gas.

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Chapter 3, Problem 3C.13E

Chapter 3, Problem 3C.15E

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The van der Waals equation, nRT = [P + (n/V)2a)](v-nb) incorporates corrections to the ideal gas law in order to account for the properties of real gases. One of the corrections accounts for the quantum behavior of molecules. that average kinetic energy is inversely proportional to temperature. the finite volume of molecules. the possibility of chemical reaction between molecules.

Describe in your own words the Kinetic Molecular Theory of gases. The Kinetic Molecular Theory of gases tells us that the energy content of any gas is related only to its temperature. It also tells us that it is possible to compute the "RMS" (root mean squared) velocity of any gas molecule if you know its formula weight and its temperature. Using this information describe how you might compute the RMS velocity of sulfur dioxide (SO2) in the atmosphere of the planet Venus (T = 820 F), the RMS velocity of oxygen (O2) in the atmosphere of Earth (T = 50 F), or the RMS velocity of carbon dioxide (CO2) in the atmosphere of Mars (T = - 80 F).

Use the equations: PV = 2/3 n KE and PV = nRT to derive KE = 3/2 RT

Chapter 3 Solutions

Chemical Principles: The Quest for Insight

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