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Increasing temperature increases the rate of dissolution, though it can increase or decrease solubility at equilibrium.
The rate decreases.
Will increase the rate of dissolution and hence how fast the solute is dissolved.
A catalyst cannot change the equilibrium position. However, it can change its rate.
because in chemical equilibrium the rate of forward reaction is = the rate of reversed reaction so in both sides at left side and right side those products which are formed are in same quantities that's why chemical equilibrium is the form equilibrium
Increasing temperature increases the rate of dissolution, though it can increase or decrease solubility at equilibrium.
Equilibrium at this point means that the forward reaction and the backward reaction are taking place at the same rate. The formation of the products and the reactants are at equal rate.
The two kinds of equilibrium are the folowing:Physical, which is an open system, and the rate of substances in, equals the rate of substances out.The other equilibrium is chemical equilibrium, which is a closed system, and the rate of the forward reaction equals the rate of the reverse reaction.
The rate decreases.
The rate decreases.
Equilibrium
Will increase the rate of dissolution and hence how fast the solute is dissolved.
When the dissolving rate equals the rate at which molecules comes out of solution the solution is in 'equilibrium'.
The rate is generally limited by dissolution.
Law of equilibrium - The principle that (at chemical equilibrium) in a reversible reaction the ratio of the rate of the forward reaction to the rate of the reverse reaction is a constant for that reaction.
Smaller the particle, faster the dissolution. By the way, you spelled dissolution incorrectly.
A catalyst cannot change the equilibrium position. However, it can change its rate.