In terms of partial pressure and in terms of molar concentration the equilibrium constant for the given reaction is to be calculated. The mole fraction of B at equilibrium is to be calculated. Concept introduction: The equilibrium constant K p describes the ratio of the reactant to the product on the equilibrium conditions in terms of the partial pressure. The equilibrium constant K c describes the ratio of the reactant to the product on the equilibrium conditions in terms of molar concentration. The equilibrium constant depends upon temperature. At equilibrium sum of all the partial pressure is equal to the total pressure. Law of mass action is applicable on the equilibrium reactions. Law of mass action states that at a given temperature the equilibrium constant is equal to the partial pressure of the products to the reactants raised the power of stoichiometric coefficient . To determine: The equilibrium constants for the given reaction in terms of partial pressure and molar concentration; the mole fraction of reactant B at equilibrium.
In terms of partial pressure and in terms of molar concentration the equilibrium constant for the given reaction is to be calculated. The mole fraction of B at equilibrium is to be calculated. Concept introduction: The equilibrium constant K p describes the ratio of the reactant to the product on the equilibrium conditions in terms of the partial pressure. The equilibrium constant K c describes the ratio of the reactant to the product on the equilibrium conditions in terms of molar concentration. The equilibrium constant depends upon temperature. At equilibrium sum of all the partial pressure is equal to the total pressure. Law of mass action is applicable on the equilibrium reactions. Law of mass action states that at a given temperature the equilibrium constant is equal to the partial pressure of the products to the reactants raised the power of stoichiometric coefficient . To determine: The equilibrium constants for the given reaction in terms of partial pressure and molar concentration; the mole fraction of reactant B at equilibrium.
Solution Summary: The author explains the equilibrium constant for the given reaction in terms of partial pressure and molar concentration, and the mole tion of B at equilibrium.
Definition Definition Number that is expressed before molecules, ions, and atoms such that it balances out the number of components present on either section of the equation in a chemical reaction. Stoichiometric coefficients can be a fraction or a whole number and are useful in determining the mole ratio among the reactants and products. In any equalized chemical equation, the number of components on either side of the equation will be the same.
Chapter 12, Problem 116IP
Interpretation Introduction
Interpretation: In terms of partial pressure and in terms of molar concentration the equilibrium constant for the given reaction is to be calculated. The mole fraction of B at equilibrium is to be calculated.
Concept introduction: The equilibrium constant
Kp describes the ratio of the reactant to the product on the equilibrium conditions in terms of the partial pressure.
The equilibrium constant
Kc describes the ratio of the reactant to the product on the equilibrium conditions in terms of molar concentration.
The equilibrium constant depends upon temperature.
At equilibrium sum of all the partial pressure is equal to the total pressure.
Law of mass action is applicable on the equilibrium reactions.
Law of mass action states that at a given temperature the equilibrium constant is equal to the partial pressure of the products to the reactants raised the power of stoichiometric coefficient.
To determine: The equilibrium constants for the given reaction in terms of partial pressure and molar concentration; the mole fraction of reactant
B at equilibrium.
3. Name this ether correctly.
H₁C
H3C
CH3
CH3
4. Show the best way to make the ether in #3 by a
Williamson Ether Synthesis.
Start from an alcohol or phenol.
5. Draw the structure of an example of a sulfide.
1. Which one(s) of these can be oxidized with CrO3 ?
(could be more than one)
a) triphenylmethanol
b) 2-pentanol
c) Ethyl alcohol
d)
CH3
2. Write in all the product(s) of this reaction. Label them
as "major" or "minor".
2-methyl-2-hexanol
H2SO4, heat
3) Determine if the pairs are constitutional isomers, enantiomers, diastereomers, or mesocompounds.
(4 points)
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