Transition state theory gives the rate constant as

Chemical Reaction Engineering
Transition state theory gives the rate constant as

K α √T . e-E/RT

K α e-E/RT

K α T . e-E/RT

K α eE/RT

K α √T . e-E/RT

K α e-E/RT

K α T . e-E/RT

K α eE/RT

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Chemical Reaction Engineering
The performance equations for constant density systems are identical for

P.F.R. and backmix reactor

Batch reactor and backmix reactor

P.F.R. and batch reactor

P.F.R, batch reactor and backmix reactor

P.F.R. and backmix reactor

Batch reactor and backmix reactor

P.F.R. and batch reactor

P.F.R, batch reactor and backmix reactor

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Chemical Reaction Engineering
For an isothermal second order aqueous phase reaction, A → B, the ratio of the time required for 90% conversion to the time required for 45% conversion is

2

22

4

11

2

22

4

11

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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

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

Reaction is elementary but the molecularity may not be 2

Reaction may be elementary with molecularity of 2

Reaction is elementary with a molecularity of 2

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

Reaction is elementary but the molecularity may not be 2

Reaction may be elementary with molecularity of 2

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Chemical Reaction Engineering
A chemical reaction occurs when the energy of the reacting molecules is __________ the activation energy of the reaction.

Equal to

Equal to or more than

Less than

More than

Equal to

Equal to or more than

Less than

More than

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Chemical Reaction Engineering
The effectiveness factor for large value of Thiele modulus (L√(K/D1)) of a solid catalysed first order reaction is equal to (where, L = length of the reactor, cm, D1 = diffusion co-efficient, cm²/second)

1

1/(L√(K/D1))

∞

L√(K/D1)

1

1/(L√(K/D1))

∞

L√(K/D1)

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Chemical Reaction Engineering

Chemical Reaction Engineering Transition state theory gives the rate constant as

Chemical Reaction Engineering The performance equations for constant density systems are identical for

Chemical Reaction Engineering For an isothermal second order aqueous phase reaction, A → B, the ratio of the time required for 90% conversion to the time required for 45% conversion is

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

Chemical Reaction Engineering A chemical reaction occurs when the energy of the reacting molecules is __________ the activation energy of the reaction.

Chemical Reaction Engineering The effectiveness factor for large value of Thiele modulus (L√(K/D1)) of a solid catalysed first order reaction is equal to (where, L = length of the reactor, cm, D1 = diffusion co-efficient, cm²/second)

Chemical Reaction Engineering
Transition state theory gives the rate constant as

Chemical Reaction Engineering
The performance equations for constant density systems are identical for

Chemical Reaction Engineering
For an isothermal second order aqueous phase reaction, A → B, the ratio of the time required for 90% conversion to the time required for 45% conversion is

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

Chemical Reaction Engineering
A chemical reaction occurs when the energy of the reacting molecules is __________ the activation energy of the reaction.

Chemical Reaction Engineering
The effectiveness factor for large value of Thiele modulus (L√(K/D1)) of a solid catalysed first order reaction is equal to (where, L = length of the reactor, cm, D1 = diffusion co-efficient, cm²/second)