(a)
Interpretation:
To derived the equilibrium constant of (Kc and Kp) given different set of equilibrium reactions.
Concept Introduction:
Equilibrium constant: The respective values of K depend on whether the solution being calculated for is using concentration (or) partial pressure. The gas equilibrium constant related to the equilibrium (K) and both are derived from the ideal gas.
(b)
Interpretation:
To derived the equilibrium constant of (Kc and Kp) given different set of equilibrium reactions.
Concept Introduction:
Chemical equilibrium: The equilibrium reaction Kp and Kc are the constant of gaseous mixture, the difference between the two constants is that Kc is defined by molar concentrations, whereas Kp is defined by the partial pressures of the gasses inside a closed system.
Equilibrium constant: The respective values of K depend on whether the solution being calculated for is using concentration (or) partial pressure. The gas equilibrium constant related to the equilibrium (K) and both are derived from the ideal gas.
(c)
Interpretation:
To derived the equilibrium constant of (Kc and Kp) given different set of equilibrium reactions.
Concept Introduction:
Chemical equilibrium: The equilibrium reaction Kp and Kc are the constant of gaseous mixture, the difference between the two constants is that Kc is defined by molar concentrations, whereas Kp is defined by the partial pressures of the gasses inside a closed system.
Equilibrium constant: The respective values of K depend on whether the solution being calculated for is using concentration (or) partial pressure. The gas equilibrium constant related to the equilibrium (K) and both are derived from the ideal gas.
(d)
Interpretation:
To derived the equilibrium constant of (Kc and Kp) given different set of equilibrium reactions.
Concept Introduction:
Chemical equilibrium: The equilibrium reaction Kp and Kc are the constant of gaseous mixture, the difference between the two constants is that Kc is defined by molar concentrations, whereas Kp is defined by the partial pressures of the gasses inside a closed system.
Equilibrium constant: The respective values of K depend on whether the solution being calculated for is using concentration (or) partial pressure. The gas equilibrium constant related to the equilibrium (K) and both are derived from the ideal gas.
(e)
Interpretation:
To derived the equilibrium constant of (Kc and Kp) given different set of equilibrium reactions.
Concept Introduction:
Chemical equilibrium: The equilibrium reaction Kp and Kc are the constant of gaseous mixture, the difference between the two constants is that Kc is defined by molar concentrations, whereas Kp is defined by the partial pressures of the gasses inside a closed system.
Equilibrium constant: The respective values of K depend on whether the solution being calculated for is using concentration (or) partial pressure. The gas equilibrium constant related to the equilibrium (K) and both are derived from the ideal gas.
(f)
Interpretation:
To derived the equilibrium constant of (Kc and Kp) given different set of equilibrium reactions.
Concept Introduction:
Chemical equilibrium: The equilibrium reaction Kp and Kc are the constant of gaseous mixture, the difference between the two constants is that Kc is defined by molar concentrations, whereas Kp is defined by the partial pressures of the gasses inside a closed system.
Equilibrium constant: The respective values of K depend on whether the solution being calculated for is using concentration (or) partial pressure. The gas equilibrium constant related to the equilibrium (K) and both are derived from the ideal gas.
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