Molarity equals normality when the equivalence factor = 1.
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∙ 11y agoYes the ratios are sometimes equal to each other.
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No. Each number is equal to itself, and to no other number.
Each number is equal to itself - and to no other number.
Each of them is precisely equal to the other.
Normality for concentrated sulfuric acid (H2SO4) is typically 18 N, as sulfuric acid is a diprotic acid, meaning each molecule can donate two hydrogen ions. This value is calculated based on the molarity of the acid and the number of protons it can donate.
In dilute solutions... ie closer a solution is to pure water the closer molality and molarity come to equalling each other. This is because the molality uses mass and molarity uses volume, the ratio of these two (mass and volume) is density, and water has the density of 1 therefore the mass and volume are equal to each other. THEREFORE calculating the molarity of water is the same as calculating the molality of water.
Sulfuric acid H2SO4 will give away 2 protons H+ for this reason its normality is 2 times its molarity. so for H2SO4 M = 2N For HCl M= 1N because HCl has only one proton H+ H3PO4 for example has 3N = M so for your case, 6M = 2N and N= 6/2 = 3.
By dissolving the same number of moles of each substance in the same volume of water
Yes the ratios are sometimes equal to each other.
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The normality of a solution is the gram equivalent weight of a solute per liter of solution. For example, 1 M sulfuric acid (H2SO4) is 2 N for acid-base reactions because each mole of sulfuric acid provides 2 moles H+ ions.
0.08 n
Not in length but equal distance from each other
Yes, all kilograms are equal to each other.
The strength of each of the chlorine-carbon bonds is equal, and their bond angles in relation to each other are equal, so in effect each of these polar bonds act against each other and cancel each other out.
they are equal to each other