Heat of reaction.
Heat of reaction.
Kc is the equilibrium constant of a chemical reaction related to concentrations. Kp is the equilibrium constant of a chemical reaction related to pressures. Generally, in normal conditions the effect of temperature is not so important.
At thermodynamic equilibrium the dynamic processes for changes in a system have reached a steady state (not changing with time) where temperature has stabilized to a constant, no heat is being exchanged, no work is occurring, composition is constant (reactants are being converted to products at the same rate that the products are converting back to the reactants), pressure is constant, if there is more than one phase, movement between the phases is balanced (for example evaporation and condensation are occurring at the same rate), and there are no concentration gradients.
Henry's Law:At a constant temperature, the amount of a given gas that dissolves in a given type and volume of liquid is directly proportional to the Partial_pressureof that gas in equilibrium with that liquid.
"Constant pressure" means the pressure must not change.
Heat of reaction.
Kc is the equilibrium constant of a chemical reaction; Kp is the equilibrium constant of a chemical reaction at constant pressure.
No.
Kc is the equilibrium constant of a chemical reaction related to concentrations. Kp is the equilibrium constant of a chemical reaction related to pressures. Generally, in normal conditions the effect of temperature is not so important.
temperature,concentration pressure
At thermodynamic equilibrium the dynamic processes for changes in a system have reached a steady state (not changing with time) where temperature has stabilized to a constant, no heat is being exchanged, no work is occurring, composition is constant (reactants are being converted to products at the same rate that the products are converting back to the reactants), pressure is constant, if there is more than one phase, movement between the phases is balanced (for example evaporation and condensation are occurring at the same rate), and there are no concentration gradients.
Temperature increases as pressure increases.
As pressure increases, if temperature is constant, the gas will decrease in volume.
The product of pressure and volume. Does PV = nRT look familiar? (:
At constant temperature p.V=constant, so pressure INcreases when decreasing the volume.
As pressure increases, if temperature is constant, the gas will decrease in volume.
The atmospheric pressure has no effect on the speed of sound when the temperature is constant. The air pressure has no influence on the sound.