Yes, and for many solutions it often is.
Molarity has to deal with the concentration of solute in a concentration, and Moles per liter of the solvent is the concentration of solvent.
For solutions where there is only one hydrogen atom per molecule (HCl) N is the same as molarity (M). It differs only when there is more than one hydrogen atom per molecule.
Molarity is one mole of solute per 1000 ml of solution
Molarity is an indication for concentration.
Yes, molarity is (number of moles/liters of solution). If you increase the numerator, the molarity number will be greater.
A concentrated acid has more acid than water and a dilute acid has more water than acid. True facts, otherwise known as its molarity. The greater the molarity the more concentrated it is (moles of acid/ liter of solution)
Molarity has to deal with the concentration of solute in a concentration, and Moles per liter of the solvent is the concentration of solvent.
Adding more solvent to a solution decreases the molarity of the solution. This is based on the principle that initial volume times initial molarity must be equivalent to final volume times final molarity.
For solutions where there is only one hydrogen atom per molecule (HCl) N is the same as molarity (M). It differs only when there is more than one hydrogen atom per molecule.
It depends on the Molarity of the solution. if the (mols x molar mass)/volume> 1, its more dense.
The concentration of a solution can be expressed in many ways. One of them is as the molarity of the solution. A solution with molarity equal to one has one mole of the solute dissolved in every liter of the solutions
Molarity is one mole of solute per 1000 ml of solution
Molarity is an indication for concentration.
Molarity is an indication for concentration.
the molarity of water is 55.5.
Yes, molarity is (number of moles/liters of solution). If you increase the numerator, the molarity number will be greater.
molarity of moles of solute/liters of solution(not solvent) the volume of the solvent(even if it started at 1 L) would change after adding the solute depending on the molar mass, density, etc of the solute, the molarity would be different