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)

None of these

∝ 1/CA

∝ CA

Independent of temperature

None of these

∝ 1/CA

∝ CA

Independent of temperature

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Chemical Reaction Engineering
Reverse reaction in a chemical equilibrium is favoured by the

Increase in the concentration of one of the reactants

None of these

Removal of one of the products regularly

Increase in the concentration of oneof the products

Increase in the concentration of one of the reactants

None of these

Removal of one of the products regularly

Increase in the concentration of oneof the products

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Chemical Reaction Engineering
For identical flow rate and feed composition, X plug flow reactors (PER) in series with a total volume V gives the same conversion as single

PFR of volume V/X

PFR of volume V

CSTR of volume V

CSTR of volume V/X

PFR of volume V/X

PFR of volume V

CSTR of volume V

CSTR of volume V/X

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Chemical Reaction Engineering
A balanced chemical reaction equation conforms to the law of

None ofthese

Conservation of mass

Avagadro's hypothesis

Gaseous volumes

None ofthese

Conservation of mass

Avagadro's hypothesis

Gaseous volumes

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Chemical Reaction Engineering
The experimentally determined overall order of the reaction, A + B → C + D, is two. Then the

Reaction is elementary with a molecularity of 2

Reaction may be elementary with molecularity of 2

Reaction is elementary but the molecularity may not be 2

Molecularity of the reaction is 2, but the reaction may not be elementary

Reaction is elementary with a molecularity of 2

Reaction may be elementary with molecularity of 2

Reaction is elementary but the molecularity may not be 2

Molecularity of the reaction is 2, but the reaction may not be elementary

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

Composition of the component only

Pressure of the system

All of these

Temperature of the system

Composition of the component only

Pressure of the system

All of these

Temperature of the system

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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 Reverse reaction in a chemical equilibrium is favoured by the

Chemical Reaction Engineering For identical flow rate and feed composition, X plug flow reactors (PER) in series with a total volume V gives the same conversion as single

Chemical Reaction Engineering A balanced chemical reaction equation conforms to the law of

Chemical Reaction Engineering The experimentally determined overall order of the reaction, A + B → C + D, is two. Then the

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
Reverse reaction in a chemical equilibrium is favoured by the

Chemical Reaction Engineering
For identical flow rate and feed composition, X plug flow reactors (PER) in series with a total volume V gives the same conversion as single

Chemical Reaction Engineering
A balanced chemical reaction equation conforms to the law of

Chemical Reaction Engineering
The experimentally determined overall order of the reaction, A + B → C + D, is two. Then the

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