A chemical reaction is of zero order, when the reaction rate is (where, CA = concentration of reactant)

Chemical Reaction Engineering
A chemical reaction is of zero order, when the reaction rate is (where, CA = concentration of reactant)

Independent of temperature

∝ 1/CA

∝ CA

None of these

Independent of temperature

∝ 1/CA

∝ CA

None of these

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Chemical Reaction Engineering
In solid catalysed reactions the diffusional effects are more likely to affect the overall rate of reaction for

Slow reactions in catalyst of small pore diameter

Fast reactions in catalyst of small pore diameter

Slow reactions in catalyst of large pore diameter

Fast reaction in catalyst of large pore diameter

Slow reactions in catalyst of small pore diameter

Fast reactions in catalyst of small pore diameter

Slow reactions in catalyst of large pore diameter

Fast reaction in catalyst of large pore diameter

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Chemical Reaction Engineering
Higher free energy of activation of a chemical reaction (at a given temperature) implies

Higher equilibrium conversion

Higher rate of reaction

Both B and C

Slower rate of reaction

Higher equilibrium conversion

Higher rate of reaction

Both B and C

Slower rate of reaction

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Chemical Reaction Engineering
Thermodynamic equilibrium constant in a system is affected by

Inerts

Temperature

All of these

Pressure

Inerts

Temperature

All of these

Pressure

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Chemical Reaction Engineering
Inversion of cane sugar is an example of

Bimolecular reaction with first order

Unimolecular reaction with first order

Unimolecular reaction with second order

Bimolecular reaction with second order

Bimolecular reaction with first order

Unimolecular reaction with first order

Unimolecular reaction with second order

Bimolecular reaction with second order

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Chemical Reaction Engineering
Chemical reaction rate of a component depends upon the

Temperature of the system

Pressure of the system

All of these

Composition of the component only

Temperature of the system

Pressure of the system

All of these

Composition of the component only

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Chemical Reaction Engineering

Chemical Reaction Engineering A chemical reaction is of zero order, when the reaction rate is (where, CA = concentration of reactant)

Chemical Reaction Engineering In solid catalysed reactions the diffusional effects are more likely to affect the overall rate of reaction for

Chemical Reaction Engineering Higher free energy of activation of a chemical reaction (at a given temperature) implies

Chemical Reaction Engineering Thermodynamic equilibrium constant in a system is affected by

Chemical Reaction Engineering Inversion of cane sugar is an example of

Chemical Reaction Engineering Chemical reaction rate of a component depends upon the

Chemical Reaction Engineering
A chemical reaction is of zero order, when the reaction rate is (where, CA = concentration of reactant)

Chemical Reaction Engineering
In solid catalysed reactions the diffusional effects are more likely to affect the overall rate of reaction for

Chemical Reaction Engineering
Higher free energy of activation of a chemical reaction (at a given temperature) implies

Chemical Reaction Engineering
Thermodynamic equilibrium constant in a system is affected by

Chemical Reaction Engineering
Inversion of cane sugar is an example of

Chemical Reaction Engineering
Chemical reaction rate of a component depends upon the