Chemistry: Structure and Properties (2nd Edition)
2nd Edition
ISBN: 9780134293936
Author: Nivaldo J. Tro
Publisher: PEARSON
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Textbook Question
Chapter 15, Problem 108E
Solve each of the expressions for x using the quadratic formula and the x is small approximation. In which of the following expressions is the x is small approximation valid?
a.
b.
c.
d.
In a complete sentence, describe the factor(s) that tend to make the x is small approximation valid in an expression.
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Using the small x approximation to solve equilibrium problems
A chemist is studying the following equilibirum, which has the given equilibrium constant at a certain temperature:
2 NO(g) + Cl,(g)–2 NOCI(g)
9.
K,=5. × 10
圖
He fills a reaction vessel at this temperature with 12. atm of nitrogen monoxide gas and 13. atm of chlorine gas. Use this data to answer the questions in the
table below.
alo
yes
Can you predict the equilibrium pressure of NOCI, using only the
tools available to you within ALEKS?
O no
If you said yes, then enter the equilibrium pressure of NOCI at
right. Round your answer to 1 significant digit.
atm
Explanation
Check
Using the small x approximation to solve equilibrium problems
A chemist is studying the following equilibirum, which has the given equilibrium constant at a certain temperature:
2 NO (g) + Cl, (g)=2NOCI (g)
K,=4. x 10-6
He fills a reaction vessel at this temperature with 11. atm of nitrogen monoxide gas and 10. atm of chlorine gas. Use this data to answer the questions in the
table below.
O yes
Can you predict the equilibrium pressure of NOCI, using only the
tools available to you within ALEKS?
O no
If you said yes, then enter the equilibrium pressure of NOCI at
right. Round your answer to 1 significant digit.
atm
Consider the equilibrium system described by the chemical reaction below. Determine the
concentration of O, at equilibrium by writing the equilibrium constant expression and solving it.
Complete Parts 1-2 before submitting your answer.
=
2 H₂O(g) 2 H2(g) + O̟₂(g)
1
2
NEXT
At this temperature, the Kc = 2.4 × 103 and the equilibrium concentrations of H2O and H2 are 0.11 M and 0.019 M,
respectively. If [x] represents the equilibrium concentration of O2, set up the equilibrium expression for Kc to solve for the
concentration. Each reaction participant must be represented by one tile. Do not combine terms.
Кс
=
2'
= 2.4 × 103
> RESET
[0.11]
[0.019]
2[0.11]
2[0.019]
[0.11]²
[0.019]²
[x]
[x]²
[2x]
[2x]²
Chapter 15 Solutions
Chemistry: Structure and Properties (2nd Edition)
Ch. 15 - How does a developing fetus get oxygen in the...Ch. 15 - What is dynamic equilibrium? Why is it called...Ch. 15 - Give the general expression for the equilibrium...Ch. 15 - What is the significance of the equilibrium...Ch. 15 - What happens to the value of the equilibrium...Ch. 15 - If two reactions sum to an overall reaction, and...Ch. 15 - Explain the difference between Kcand Kp. For a...Ch. 15 - What units should you use when expressing...Ch. 15 - Why do we omit the concentrations of solids and...Ch. 15 - Does the value of the equilibrium constant depend...
Ch. 15 - Explain how you might deduce the equilibrium...Ch. 15 - What is the definition of the reaction quotient ()...Ch. 15 - What is the value of when each reactant and...Ch. 15 - Prob. 14ECh. 15 - Many equilibrium calculations involve finding the...Ch. 15 - In equilibrium problems involving equilibrium...Ch. 15 - What happens to a chemical system at equilibrium...Ch. 15 - What is the effect of a change in concentration of...Ch. 15 - What is the effect of a change in volume on a...Ch. 15 - What is the effect of temperature change on a...Ch. 15 - Write an expression for the equilibrium constant...Ch. 15 - Find and fix each mistake in the equilibrium...Ch. 15 - When the reaction comes to equilibrium, will the...Ch. 15 - Ethene (C2H4) can be halogenated by this reaction:...Ch. 15 - H2 and I2 are combined in a flask and allowed to...Ch. 15 - A chemist trying to synthesize a particular...Ch. 15 - This reaction has an equilibrium constant of...Ch. 15 - This reaction has an equilibrium constant of...Ch. 15 - Prob. 29ECh. 15 - Use the following reactions and their equilibrium...Ch. 15 - Calculate Kc for reaction a. I2(g)2I(g)Kp=6.261022...Ch. 15 - Calculate Kpfor each reaction. a. N2O4(g)2NO2(g)...Ch. 15 - Write an equilibrium expression for each chemical...Ch. 15 - Find and fix the mistake in the equilibrium...Ch. 15 - Consider the reaction: CO(g)+2H2(g)CH3OH(g) An...Ch. 15 - Consider the reaction: NH4HS(s)NH3(g)+H2S(g) An...Ch. 15 - Consider the reaction: N2(g)+3H2(g)2NH3(g)...Ch. 15 - Consider the reaction: H2(g)+I2(g)2HI(g) Complete...Ch. 15 - Consider the reaction: 2NO(g)+Br2(g)2NOBr(g)Kp=...Ch. 15 - Consider the reaction:...Ch. 15 - For the reaction A(g)2B(g) , a reaction vessel...Ch. 15 - For the reaction 2A(g)B(g)+2C(g) , a reaction...Ch. 15 - Consider the reaction:...Ch. 15 - Consider the reaction: SO2Cl2(g)SO2+Cl2(g) A...Ch. 15 - Consider the reaction: H2(g)+I2(g)2HI(g) A...Ch. 15 - Consider the reaction. CO(g)+2H2(g)CH3OH(g) A...Ch. 15 - Consider the reaction: NH4HS(s)NH3(g)+H2S(g) At a...Ch. 15 - Consider the reaction:...Ch. 15 - Silver sulfate dissolves in water according to the...Ch. 15 - Nitrogen dioxide reacts with itself according to...Ch. 15 - Consider the reaction and the associated...Ch. 15 - Consider the reaction and the associated...Ch. 15 - For the reaction Kc= 0.513 at 500K. N2O4(g)2NO2(g)...Ch. 15 - For the reaction, Kc= 255 at 1000 K...Ch. 15 - Consider the reaction: NiO(s)+CO(g)Ni(s)+CO2(g)...Ch. 15 - Consider the reaction: CO(g)+H2O(g)CO2(g)+H2(g)Kc=...Ch. 15 - Consider the reaction: HC 2 H 3 O 2 (aq)+ H 2 O(l)...Ch. 15 - Prob. 58ECh. 15 - Consider the reaction:...Ch. 15 - Consider the reaction:...Ch. 15 - Consider the reaction: A(g)B(g)+C(g) Find the...Ch. 15 - Consider the reaction: A(g)2B(g) Find the...Ch. 15 - Consider this reaction at equilibrium:...Ch. 15 - Consider this reaction at equilibrium:...Ch. 15 - Consider this reaction at equilibrium:...Ch. 15 - Prob. 66ECh. 15 - Each reaction is allowed to come to equilibrium,...Ch. 15 - Prob. 68ECh. 15 - This reaction is endothermic: C(s)+CO2(g)2CO(g)...Ch. 15 - This reaction is exothermic:...Ch. 15 - Coal, which is primarily carbon, can be converted...Ch. 15 - Coal can be used to generate hydrogen gas (a...Ch. 15 - Carbon monoxide replaces oxygen in oxygenated...Ch. 15 - Nitrogen monoxide is a pollutant in the lower...Ch. 15 - The reaction CO2(g)+C(s)2CO(g) has Kp= 5.78 at...Ch. 15 - A mixture of water and graphite is heated to 600...Ch. 15 - At 650 K, the reaction MgCO3(s)MgO(s)+CO2(g) has...Ch. 15 - A system at equilibrium contains I2(g) at a...Ch. 15 - Consider the exothermic reaction:...Ch. 15 - Consider the endothermic reaction:...Ch. 15 - Consider the reaction: H2(g)+I2(g)2HI(g) A...Ch. 15 - Prob. 82ECh. 15 - Prob. 83ECh. 15 - Prob. 84ECh. 15 - The system described by the reaction:...Ch. 15 - A reaction vessel at 27017°C contains a mixture of...Ch. 15 - At 70 K, CCl4 decomposes to carbon and chlorine....Ch. 15 - The equilibrium constant for the reaction...Ch. 15 - A sample of CaCO3(s) is introduced into a sealed...Ch. 15 - An equilibrium mixture contains N2O4, (P = O.28)...Ch. 15 - Carbon monoxide and chlorine gas react to form...Ch. 15 - Prob. 92ECh. 15 - Prob. 93ECh. 15 - Prob. 94ECh. 15 - Nitrogen monoxide reacts with chlorine gas...Ch. 15 - At a given temperature, a system containing O2(g)...Ch. 15 - A sample of pure NO2 is heated to 337 °C, at which...Ch. 15 - When N2O5(g) is heated, it dissociates into...Ch. 15 - A sample of SO3 is introduced into an evacuated...Ch. 15 - A reaction A(g)B(g) has an equilibrium constant of...Ch. 15 - The reaction A(g)2B(g) has an equilibrium constant...Ch. 15 - A particular reaction has an equilibrium constant...Ch. 15 - Consider the reaction: aA(g)bB(g) Each of the...Ch. 15 - Consider the simple one-step reaction: A(g)B(g)...Ch. 15 - Prob. 105ECh. 15 - Consider the reaction: N2(g)+3H2(g)2NH3(g). a....Ch. 15 - For the reaction AB , the ratio of products to...Ch. 15 - Solve each of the expressions for x using the...Ch. 15 - Have each group member explain to the group what...Ch. 15 - Prob. 110ECh. 15 - What is the correct expression for the equilibrium...Ch. 15 - Prob. 2SAQCh. 15 - Use the data below to find the equilibrium...Ch. 15 - The reaction shown here has a Kp = 4.5X102 AT 825...Ch. 15 - Consider the reaction between NO and Cl2 to form...Ch. 15 - Prob. 6SAQCh. 15 - Consider the reaction between iodine gas and...Ch. 15 - Prob. 8SAQCh. 15 - The decomposition of NH4HS is endothermic:...Ch. 15 - The solid XY decomposes into gaseous X and Y:...Ch. 15 - What is the effect of adding helium gas (at...Ch. 15 - Prob. 12SAQ
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- An equilibrium involving the carbonate and bicarbonate ions exists in natural waters: HCO5_(aq) «=* H+(aq) + COf-(aq) Assuming that the reactions in both directions are elementary' processes: Write rate expressions for the forward and reverse reactions. Write an expression for the equilibrium constant based on the rates of the forward and reverse reactions.arrow_forward. Explain what it means that a reaction has reached a state of chemical equilibrium. Explain why equilibrium is a dynamic state: Does a reaction really “stop” when the system reaches a state of equilibrium? Explain why, once a chemical system has reached equilibrium, the concentrations of all reactants remain constant with time. Why does this constancy of concentration not contradict our picture of equilibrium as being dynamic? What happens to the rates of the forward and reverse reactions as a system proceeds to equilibrium from a starting point where only reactants are present?arrow_forwardIn the reaction in Exercise 12.33, another trial was carried out. The reaction began with an initial concentration of N2 equal to the initial concentration of NO. Each had a concentration of 0.100 mol L-1. WTat were the equilibrium concentrations of all species? The following reaction establishes equilibrium at 2000 K: N2(g) + O2(g) ^2 NO K = 4.1 X 10~4 If the reaction began with 0.100 mol L-1 of N2 and 0.100 mol L'1 ofO2, what were the equilibrium concentrations of all species?arrow_forward
- A gaseous material XY(g) dissociates to some extent to produce X(g) and Y(g): XY(g)X(g)+Y(g) A 2.00-g sample of XY (molar mass = 165 g/mol) is placed in a container with a movable piston at 25C. The pressure is held constant at 0.967 atm. As XY begins to dissociate, the piston moves until 35.0 mole percent of the original XY has dissociated and then remains at a constant position. Assuming ideal behavior, calculate the density of the gas in the container after the piston has stopped moving, and determine the value of K for this reaction of 25C.arrow_forwardThe initial concentrations or pressures of reactants and products are given for each of the following systems. Calculate the reaction quotient and determine the direction] in which each system will proceed to leach equilibrium. (a) 2NH3(g)N2(g)+3H2(g) Kc=17;[NH3]=0.20M,[N2]=1.00M,[H2]=1.00M (b) 2NH3(g)N2(g)+3H2(g) Kp=6.8104 initial pressures NH3=3.0atm,N2=2.0atm,H2=1.0atm (c) 2SO3(g)2SO2(g)+O2(g) Kc=0.230;[SO3]=0.00M,[SO2]=1.00M,[O2]=1.00M (d) 2SO3(g)2SO2(g)+O2(g) Kp=16.5 initial pressures SO3=1.00atm,SO2=1.00atm,O2=1.00atm (e) 2NO(g)+CI2(g)2NOCI(g) Kc=4.6104;[NO]=1.00M,[CI2]=1.00M,[NOCI]=0M (f) N2(g)+O2(g)2NO(g) Kp=0.050 initial pressures NO=1.00atm,N2=O2=5atmarrow_forwardWhat is Le Chteliers principle? Consider the reaction 2NOCI(g)2NO(g)+Cl2(g) If this reaction is at equilibrium. what happens when the following changes occur? a. NOCI(g) is added. b. NO(g) is added. c. NOCI(g) is removed. d. Cl2(g) is removed. e. The container volume is decreased. For each of these changes, what happens to the value of K for the reaction as equilibrium is reached again? Give an example of a reaction for which the addition or removal of one of the reactants or products has no effect on the equilibrium position. In general, how will the equilibrium position of a gas-phase reaction be affected if the volume of the reaction vessel changes? Are there reactions that will not have their equilibria shifted by a change in volume? Explain. Why does changing the pressure in a rigid container by adding an inert gas not shift the equilibrium position for a gas-phase reaction?arrow_forward
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