(a)
Interpretation:
The equilibrium constant
Concept Information:
Forward Reaction: This type of reaction has involved irreversible, if obtained product cannot be converted back in to respective reactants under the same conditions. Backward Reaction: This type of reaction process involved a reversible, if the products can be converted into a back to reactants.
Equilibrium constant: Concentration of the products to the respective molar concentration of reactants it is called equilibrium constant. If the K value is less than one the reaction will move to the left side and the K values is higher (or) greater than one the reaction will move to the right side of reaction.
Rate equation for the general reaction
The rate of the reaction is proportinal to the concentration of A to the power of x, is
The rate of the reaction is proportional to the concentration of B to the power of y is
Then the rate equation becomes,
Reversible Reaction and equilibrium conversion: The equilibrium, the concentration of the species is related by the relationship dictated by thermodynamic equation.
(b)
Interpretation:
The equilibrium constant value should be determined given liquid-phase reaction.
Concept Information:
Forward Reaction: This type of reaction has involved irreversible, if obtained product cannot be converted back in to respective reactants under the same conditions. Backward Reaction: This type of reaction process involved a reversible, if the products can be converted into a back to reactants.
Equilibrium constant: Concentration of the products to the respective molar concentration of reactants it is called equilibrium constant. If the K value is less than one the reaction will move to the left side and the K values is higher (or) greater than one the reaction will move to the right side of reaction.
Rate equation for the general reaction
The rate of the reaction is proportinal to the concentration of A to the power of x, is
The rate of the reaction is proportional to the concentration of B to the power of y is
Then the rate equation becomes,
(c)
Interpretation:
Equilibrium constant for the given reaction has to be written as a function of conversion, numerically evaluating all possible symbols.
Concept Information:
Rate of a reaction: It represents the speed at which a chemical reaction runs. How much concentration of substrates (reactants) consumed and how much concentration of targets (products) formed in a unit of time is said to be rate of reaction.
Rate equation for the general reaction
The rate of the reaction is proportinal to the concentration of A to the power of x, is
The rate of the reaction is proportional to the concentration of B to the power of y is
Then the rate equation becomes,
(d)
Interpretation:
Equilibrium constant for the given reaction has to be written as a function of conversion, numerically evaluating all possible symbols.
Concept Information:
Rate of a reaction: It represents the speed at which a chemical reaction runs. How much concentration of substrates (reactants) consumed and how much concentration of targets (products) formed in a unit of time is said to be rate of reaction.
Rate equation for the general reaction
The rate of the reaction is proportinal to the concentration of A to the power of x, is
The rate of the reaction is proportional to the concentration of B to the power of y is
Then the rate equation becomes,
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Elements of Chemical Reaction Engineering (5th Edition) (Prentice Hall International Series in the Physical and Chemical Engineering Sciences)
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