Thermodynamics and Free Energy MCQ Questions and Answers | Biochemistry

Thermodynamics and Free Energy
During the unfolding reaction of a helix, breakage of each hydrogen bond requires about 2kJ/mol. This implies hydrogen bonds are

much stronger in proteins than in water

slightly stronger in proteins than in water

slightly weaker in proteins than in water

not reformed with water

much stronger in proteins than in water

slightly stronger in proteins than in water

slightly weaker in proteins than in water

not reformed with water

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Thermodynamics and Free Energy
If the enthalpy change for a reaction is zero, ΔG° is equal to

-TΔS°

lnKeq

TΔS°

-ΔH°

-TΔS°

lnKeq

TΔS°

-ΔH°

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Thermodynamics and Free Energy
Reactions that have positive standard free energy changes (ΔGo> 0) can be made to occur in cells by

coupling them to the hydrolysis of ATP

All of these

manipulating the concentrations of products and reactants such that G/<0

coupling them with exergonic reactions via a common intermediate

coupling them to the hydrolysis of ATP

All of these

manipulating the concentrations of products and reactants such that G/<0

coupling them with exergonic reactions via a common intermediate

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Thermodynamics and Free Energy
The Standard Gibb's free energy, ΔG°, is

the difference in the residual energy of reactants and products at equilibrium

the residual energy present in the products at equilibrium

the energy required to convert one mole of reactants to one mole of products

the residual energy present in the reactants at equilibrium

the difference in the residual energy of reactants and products at equilibrium

the residual energy present in the products at equilibrium

the energy required to convert one mole of reactants to one mole of products

the residual energy present in the reactants at equilibrium

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Thermodynamics and Free Energy
If the Standard Gibb's free energy, ΔG°, for a reaction is positive then

all of the reactant will be converted to product

the concentration of the reactants and products will be equal

the reactants will be favored

the products will be favored

all of the reactant will be converted to product

the concentration of the reactants and products will be equal

the reactants will be favored

the products will be favored

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THERMODYNAMICS AND FREE ENERGY

Thermodynamics and Free Energy During the unfolding reaction of a helix, breakage of each hydrogen bond requires about 2kJ/mol. This implies hydrogen bonds are

Thermodynamics and Free Energy If the enthalpy change for a reaction is zero, ΔG° is equal to

Thermodynamics and Free Energy Reactions that have positive standard free energy changes (ΔGo> 0) can be made to occur in cells by

Thermodynamics and Free Energy The Standard Gibb's free energy, ΔG°, is

Thermodynamics and Free Energy If the Standard Gibb's free energy, ΔG°, for a reaction is positive then

Thermodynamics and Free Energy
During the unfolding reaction of a helix, breakage of each hydrogen bond requires about 2kJ/mol. This implies hydrogen bonds are

Thermodynamics and Free Energy
If the enthalpy change for a reaction is zero, ΔG° is equal to

Thermodynamics and Free Energy
Reactions that have positive standard free energy changes (ΔGo> 0) can be made to occur in cells by

Thermodynamics and Free Energy
The Standard Gibb's free energy, ΔG°, is

Thermodynamics and Free Energy
If the Standard Gibb's free energy, ΔG°, for a reaction is positive then