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(a)
Interpretation:
The given reaction is an exothermic reaction.
The statement, " The equilibrium will shift to right on increasing temperature" is to be determined to be whether true or false.
Concept Introduction:
In every reaction, the reactants must be equal to the products. If not so, then the equilibrium will move in a certain direction so as to balance the reaction.
(b)
Interpretation:
The given reaction is an exothermic reaction.
The statement, "When the concentration
Concept Introduction:
In every reaction, the reactants must be equal to the products. If not so, then the equilibrium will move in a certain direction so as to balance the reaction.
(c)
Interpretation:
The given reaction is an exothermic reaction.
The statement, "With the addition of inert gases like helium and increasing the pressure, there will be no change in the direction of equilibrium" is to be determined to be whether true or false.
Concept Introduction:
In every reaction, the reactants must be equal to the products. If not so, then the equilibrium will move in a certain direction so as to balance the reaction.
(d)
Interpretation:
The given reaction is an exothermic reaction.
The statement, "With the removal of
Concept Introduction:
In every reaction, the reactants must be equal to the products. If not so, then the equilibrium will move in a certain direction so as to balance the reaction.
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Chapter 6 Solutions
EBK GENERAL, ORGANIC, & BIOLOGICAL CHEM
- . Consider the following exothermic reaction at equilibrium: N2(g)+3H2(g)2NH3(g)Predict how the following changes affect the number of moles of each component of the system after equilibrium is re-established by completing the table. Complete the table with the terms increase, decrease, or no change. N2 H2 NH3 Add N2(g) Remove H2(g) Add NH3(g) Add Ne(g) (constant V) Increase the temperature Decrease the volume (constant T) Add a catalystarrow_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_forwardConsider the system 4 NH3(g) + 3 O2(g) ⇌ 2 N2(g) + 6 H20(ℓ) ΔrH° = −1530.4 kJ/mol How will the amount of ammonia at equilibrium be affected by removing O2(g) without changing the total gas volume? adding N2(g) without changing the total gas volume? adding water without changing the total gas volume? expanding the container? increasing the temperature? Which of these changes (i to v) increases the value of K? Which decreases it?arrow_forward
- The value of the equilibrium constant, K, is dependent on which of the following? (There may be more than one answer.) a. the initial concentrations of the reactants b. the initial concentrations of the products c. the temperature of the system d. the nature of the reactants and products Explain.arrow_forwardFor the generalized chemical reaction A(g)+B(g)C(g)+D(g) determine whether the concentration of A in an equilibrium mixture will (1) increase, (2) decrease, or (3) not change when each of the following changes is effected. a. concentration of B is increased b. concentration of C is decreased c. concentration of D is increased d. concentration of D is decreasedarrow_forwardBased on the diagrams, chemical reaction, and reaction conditions depicted in Problem 9-83, which of the diagrams represents the equilibrium mixture if the numerical value of the equilibrium constant is 9.0?arrow_forward
- Consider the following hypothetical dissociation: AB3(s) A3+(aq)+3 B(aq)H0What effect will each of the following have on the position of equilibrium? (a) addition of A(NO3)3 (b) increase in temperature (c) adding Na+, forming NaBarrow_forwardCalculate the equilibrium concentrations that result when 0.25 M O2 and 1.0 M HCl react and come to equilibrium. 4HCl(g)+O2(g)2Cl2+2H2O(g)Kc=3.11013arrow_forwardTell what will happen to each equilibrium concentration in the following when the indicated stress is applied and a new equilibrium position is established. a. LiOH(s)+CO2(g)LiHCO3(s)+heat; CO2 is removed. b. 2NaHCO3(s)+heatNa2O(s)+2CO2(g)+H2O(g); The system is cooled. c. CaCO3(s)+heatCaO(s)+CO2(g); The system is cooled.arrow_forward
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