(a)
Interpretation:
The equilibrium equation for the given reaction has to be determined.
Concept Introduction:
Equilibrium constant is explains the relationship among reactant and product at equilibrium for a particular reaction.
The equilibrium constant expression is expressed by the formula,
It is the ratio of concentration of product raised to power of their corresponding coefficient of stoichiometry and concentration of reactant raised to power of their corresponding coefficient of stoichiometry at equilibrium.
(b)
Interpretation:
The equilibrium equation for the following reaction has to be determined.
Concept Introduction:
Equilibrium constant is explains the relationship among reactant and product at equilibrium for a particular reaction.
The equilibrium constant expression is expressed by the formula,
It is the ratio of concentration of product raised to power of their corresponding coefficient of stoichiometry and concentration of reactant raised to power of their corresponding coefficient of stoichiometry at equilibrium.
(c)
Interpretation:
The equilibrium equation for the following reaction has to be determined.
Concept Introduction:
Equilibrium constant is explains the relationship among reactant and product at equilibrium for a particular reaction.
The equilibrium constant expression is expressed by the formula,
It is the ratio of concentration of product raised to power of their corresponding coefficient of stoichiometry and concentration of reactant raised to power of their corresponding coefficient of stoichiometry at equilibrium.
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Chapter 7 Solutions
FUND. GEN. ORG&BIO CHEM PKG
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- Consider the following reaction at 25°C with the ΔG°’ = +1800 J/mol for the forward reaction.The molar concentrations at the beginning of the reaction were [A] = 19 mM and [B] = 10 mM.After 1 hour, the concentrations were [A] = 16 mM and [B] = 13 mM. Calculate the ΔG of the reaction at the 1 hour timepoint. Please round to 1 decimal point.Gas constant = 8.315 J/mol Karrow_forwardCalculate the equilibrium concentration of H2O for the following esterification reaction performed in ethanol(C2H5OH) C2H5OH + CH3CO2H ⇌CH3CO2C2H5 + H2O KC= 4.0 At equilibrium: [CH3CO2H] = 0.75 M; [CH3CO2C2H5 ]= 2.2 Marrow_forwardTwo solutions, 250.0 mL of 1.00 M CaCl2(aq) and 250.0 mL of 1.00 M K2SO4(aq), are combined, and the temperature decreased by 2.40 degrees C. Determine qrxn per mole of CaSO4(s) formed in the reaction. A) +12.0 kJ/mol B) -12.0 kJ/mol C) +6.00 kJ/mol D) -6.00 kJ/molarrow_forward
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