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)

Decreases

Increases

Remains unaffected

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

Decreases

Increases

Remains unaffected

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Chemical Reaction Engineering
An isothermal irreversible reaction is being carried out in an ideal tubular flow reactor. The conversion in this case will __________ with decrease in space time.

Remain unchanged

Decrease

Increase

Increase exponentially

Remain unchanged

Decrease

Increase

Increase exponentially

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Chemical Reaction Engineering
The rate of the heterogenous catalytic reaction A(g) + B(g) ? C(g) is given by -rA = k.KA.pA.PB/(1 + KA.PA + Kc.pc), where KA and Kc are the adsorption equilibrium constants. The rate controlling step for this reaction isA. absorption of A.

Surface reaction between absorbed A and B in the gas phase

Surface reaction between absorbed A and absorbed B

Surface reaction between A in the gas phase and absorbed B

Absorption of A

Surface reaction between absorbed A and B in the gas phase

Surface reaction between absorbed A and absorbed B

Surface reaction between A in the gas phase and absorbed B

Absorption of A

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Chemical Reaction Engineering
As the chemical reaction proceeds, the rate of reaction

Decreases

Increases

Remains same

May increase or decrease depending on the type of reaction

Decreases

Increases

Remains same

May increase or decrease depending on the type of reaction

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Chemical Reaction Engineering
When the reaction occurs in the diffusion controlled region, the apparent activation energy as measured is only __________ the true value.

None of these

Equal

Twice

Half

None of these

Equal

Twice

Half

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Chemical Reaction Engineering
An imbalanced chemical reaction equation is against the law of

Constant proportion

None of these

Multiple proportion

Conservation of mass

Constant proportion

None of these

Multiple proportion

Conservation of mass

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Chemical Reaction Engineering

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

Chemical Reaction Engineering An isothermal irreversible reaction is being carried out in an ideal tubular flow reactor. The conversion in this case will __________ with decrease in space time.

Chemical Reaction Engineering The rate of the heterogenous catalytic reaction A(g) + B(g) ? C(g) is given by -rA = k.KA.pA.PB/(1 + KA.PA + Kc.pc), where KA and Kc are the adsorption equilibrium constants. The rate controlling step for this reaction isA. absorption of A.

Chemical Reaction Engineering As the chemical reaction proceeds, the rate of reaction

Chemical Reaction Engineering When the reaction occurs in the diffusion controlled region, the apparent activation energy as measured is only __________ the true value.

Chemical Reaction Engineering An imbalanced chemical reaction equation is against the law of

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

Chemical Reaction Engineering
An isothermal irreversible reaction is being carried out in an ideal tubular flow reactor. The conversion in this case will __________ with decrease in space time.

Chemical Reaction Engineering
The rate of the heterogenous catalytic reaction A(g) + B(g) ? C(g) is given by -rA = k.KA.pA.PB/(1 + KA.PA + Kc.pc), where KA and Kc are the adsorption equilibrium constants. The rate controlling step for this reaction isA. absorption of A.

Chemical Reaction Engineering
As the chemical reaction proceeds, the rate of reaction

Chemical Reaction Engineering
When the reaction occurs in the diffusion controlled region, the apparent activation energy as measured is only __________ the true value.

Chemical Reaction Engineering
An imbalanced chemical reaction equation is against the law of