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if there is no motion of a lever around a fulcrum, then how do the torques compare? the torques must be equal. this does not necessarily imply that the forces or the lever arms involved are equal. when this situation occurs we say the lever system is in equilibrium.
The total mass remain constant.
We need to see what reaction that you are referring is.
It is the ratio of the concentrations of products to the concentrations of reactants.
That depends on the other products and or reactants and the percentage yield (measure of efficiency) of the reaction.
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 dividend is the product of the divisor with the quotient.
if there is no motion of a lever around a fulcrum, then how do the torques compare? the torques must be equal. this does not necessarily imply that the forces or the lever arms involved are equal. when this situation occurs we say the lever system is in equilibrium.
They are equivalent.
The total mass remain constant.
The quotient is less than the fraction.
If the demand shift to the right, the equilibrium price and quantity will shift from the initial equilibrium price and quantity to the next, i mean the equilibrium price and quantity will increase as compare to the first.
The quotient can be smaller or larger - depending on whether the original was negative or positive. It will be unchanged if it was 0.
its chemestry
We need to see what reaction that you are referring is.
The quotient of two negative numbers is positive. So, when dividing two negative numbers, the result will be positive.
You can compare them by looking at them (they are the same)subtracting one from the other (answer = 0)dividing one by the other (the quotient is 1).