The residence time distribution of an ideal CSTR is

Chemical Reaction Engineering
The residence time distribution of an ideal CSTR is

Τ exp (-t/τ)

Exp(-t/τ)

1/τ exp (-t/τ)

1/τ (-t/τ)

Τ exp (-t/τ)

Exp(-t/τ)

1/τ exp (-t/τ)

1/τ (-t/τ)

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

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

Reaction may be elementary with molecularity of 2

Reaction is elementary but the molecularity may not be 2

Reaction is elementary with a molecularity of 2

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

Reaction may be elementary with molecularity of 2

Reaction is elementary but the molecularity may not be 2

Reaction is elementary with a molecularity of 2

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Chemical Reaction Engineering
The value of 'n' for a chemical reaction A → B, whose reaction rate is → CAn, will be __________ if the rate of the reaction increases by a factor of 8, when the concentration of is doubled.

3

2

1

3

2

1

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Chemical Reaction Engineering
The increase in the rate of reaction with temperature is due to

None of these

Decrease in activation energy

Increase in the number of effective collisions

Increase in the average kinetic energy of the reacting molecules

None of these

Decrease in activation energy

Increase in the number of effective collisions

Increase in the average kinetic energy of the reacting molecules

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Chemical Reaction Engineering
The rate of a chemical reaction is almost doubled for every 10°C rise in temperature. The rate will increase __________ times, if the temperature rises form 10 to 100°C.

112

512

256

612

112

512

256

612

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

Both B and C

Higher equilibrium conversion

Higher rate of reaction

Slower rate of reaction

Both B and C

Higher equilibrium conversion

Higher rate of reaction

Slower rate of reaction

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Chemical Reaction Engineering

Chemical Reaction Engineering The residence time distribution of an ideal CSTR is

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

Chemical Reaction Engineering The value of 'n' for a chemical reaction A → B, whose reaction rate is → CAn, will be __________ if the rate of the reaction increases by a factor of 8, when the concentration of is doubled.

Chemical Reaction Engineering The increase in the rate of reaction with temperature is due to

Chemical Reaction Engineering The rate of a chemical reaction is almost doubled for every 10°C rise in temperature. The rate will increase __________ times, if the temperature rises form 10 to 100°C.

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

Chemical Reaction Engineering
The residence time distribution of an ideal CSTR is

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

Chemical Reaction Engineering
The value of 'n' for a chemical reaction A → B, whose reaction rate is → CAn, will be __________ if the rate of the reaction increases by a factor of 8, when the concentration of is doubled.

Chemical Reaction Engineering
The increase in the rate of reaction with temperature is due to

Chemical Reaction Engineering
The rate of a chemical reaction is almost doubled for every 10°C rise in temperature. The rate will increase __________ times, if the temperature rises form 10 to 100°C.

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