The equilibrium constant of chemical reaction __________ in the presence of catalyst.

Chemical Reaction Engineering
The equilibrium constant of chemical reaction __________ in the presence of catalyst.

Can either increase or decrease (depends on the type of catalyst)

Increases

Remains unaffected

Decreases

Can either increase or decrease (depends on the type of catalyst)

Increases

Remains unaffected

Decreases

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Chemical Reaction Engineering
A second order reaction of the form A + B → C is called a pseudo-first order reaction, when

CB0 > CA0

CB0 ≥ CB0

CA0 = CB0

CA0 > CB0

CB0 > CA0

CB0 ≥ CB0

CA0 = CB0

CA0 > CB0

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Chemical Reaction Engineering
In the fluid catalytic cracker (FCC), the cracking reaction is (i) and the regeneration is __ (ii)

(i) exothermic (ii) endothermic

(i) exothermic (ii) exothermic

(i) endothermic (ii) enodthermic

(i) endothermic (ii) exothermic

(i) exothermic (ii) endothermic

(i) exothermic (ii) exothermic

(i) endothermic (ii) enodthermic

(i) endothermic (ii) exothermic

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Chemical Reaction Engineering
A rise in temperature

Does not affect a catalysed reaction

All of these

Does not affect photo-chemical reaction rates

Normally tends to increase the reaction rate

Does not affect a catalysed reaction

All of these

Does not affect photo-chemical reaction rates

Normally tends to increase the reaction rate

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

Increase in the concentration of oneof the products

None of these

Increase in the concentration of one of the reactants

Removal of one of the products regularly

Increase in the concentration of oneof the products

None of these

Increase in the concentration of one of the reactants

Removal of one of the products regularly

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Chemical Reaction Engineering
Time required for 50% decomposition of a liquid in an isothermal batch reactor following first order kinetics is 2 minutes. The time required for 75% decomposition will be about __________ minutes.

6

3

8

4

6

3

8

4

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Chemical Reaction Engineering

Chemical Reaction Engineering The equilibrium constant of chemical reaction __________ in the presence of catalyst.

Chemical Reaction Engineering A second order reaction of the form A + B → C is called a pseudo-first order reaction, when

Chemical Reaction Engineering In the fluid catalytic cracker (FCC), the cracking reaction is __________ (i) and the regeneration is ____________ (ii)

Chemical Reaction Engineering A rise in temperature

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

Chemical Reaction Engineering Time required for 50% decomposition of a liquid in an isothermal batch reactor following first order kinetics is 2 minutes. The time required for 75% decomposition will be about __________ minutes.

Chemical Reaction Engineering
The equilibrium constant of chemical reaction __________ in the presence of catalyst.

Chemical Reaction Engineering
A second order reaction of the form A + B → C is called a pseudo-first order reaction, when

Chemical Reaction Engineering
In the fluid catalytic cracker (FCC), the cracking reaction is (i) and the regeneration is __ (ii)

Chemical Reaction Engineering
A rise in temperature

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

Chemical Reaction Engineering
Time required for 50% decomposition of a liquid in an isothermal batch reactor following first order kinetics is 2 minutes. The time required for 75% decomposition will be about __________ minutes.