The concentration of A in a first order reaction, A → B, decreases

Chemical Reaction Engineering
The concentration of A in a first order reaction, A → B, decreases

Very abruptly towards the end of the reaction

Linearly with time

Exponentially with time

Logarithmically with time

Very abruptly towards the end of the reaction

Linearly with time

Exponentially with time

Logarithmically with time

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Chemical Reaction Engineering
The response curve for a step input signal from a reactor is called C-curve. The variance of C-curve in a 'tanks in series model' comprising of 'm' tanks is equal to

m²

√m

1/m

m

m²

√m

1/m

m

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Chemical Reaction Engineering
The decomposition of A into B is represented by the exothermic reaction, A ⇋ 2B. To achieve maximum decomposition, it is desirable to carry out the reaction.

At high P and high T

At high P and low T

At low P and high T

At low P and low T

At high P and high T

At high P and low T

At low P and high T

At low P and low T

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Chemical Reaction Engineering
In an ideal P.F.R. at steady state conditions

The conversion of the reactant varies from point to point along a flow path

There is no lateral mixing of fluid

The composition of reactants remains constant along a flow path

There may be diffusion along the flow path

The conversion of the reactant varies from point to point along a flow path

There is no lateral mixing of fluid

The composition of reactants remains constant along a flow path

There may be diffusion along the flow path

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Chemical Reaction Engineering
A catalyst is said to be a negative catalyst, ifit

All of these

Retards the rate of reaction

Does not initiate the reaction

Reduces the value of equilibrium constant

All of these

Retards the rate of reaction

Does not initiate the reaction

Reduces the value of equilibrium constant

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Chemical Reaction Engineering
The catalyst in a first order chemical reaction changes the

Activation energy

Heat of formation of the product

Equilibrium constant

Heat of reaction

Activation energy

Heat of formation of the product

Equilibrium constant

Heat of reaction

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Chemical Reaction Engineering

Chemical Reaction Engineering The concentration of A in a first order reaction, A → B, decreases

Chemical Reaction Engineering The response curve for a step input signal from a reactor is called C-curve. The variance of C-curve in a 'tanks in series model' comprising of 'm' tanks is equal to

Chemical Reaction Engineering The decomposition of A into B is represented by the exothermic reaction, A ⇋ 2B. To achieve maximum decomposition, it is desirable to carry out the reaction.

Chemical Reaction Engineering In an ideal P.F.R. at steady state conditions

Chemical Reaction Engineering A catalyst is said to be a negative catalyst, ifit

Chemical Reaction Engineering The catalyst in a first order chemical reaction changes the

Chemical Reaction Engineering
The concentration of A in a first order reaction, A → B, decreases

Chemical Reaction Engineering
The response curve for a step input signal from a reactor is called C-curve. The variance of C-curve in a 'tanks in series model' comprising of 'm' tanks is equal to

Chemical Reaction Engineering
The decomposition of A into B is represented by the exothermic reaction, A ⇋ 2B. To achieve maximum decomposition, it is desirable to carry out the reaction.

Chemical Reaction Engineering
In an ideal P.F.R. at steady state conditions

Chemical Reaction Engineering
A catalyst is said to be a negative catalyst, ifit

Chemical Reaction Engineering
The catalyst in a first order chemical reaction changes the