Millimole per litre is a unit for small concentrations; sometimes used for pharmaceutical solutions.
Millimole is 1000th of a mole which is 10^-3
1 milligram per litre is 0.001 grams per litre. 1 gram per litre is 1000 milligrams per litre.
grams per liter is a measurement of density. A milliliter is a measurement of volume. They are not the same.
milligram divided by 1000 will give you grams, now use the molecular weight to get the number of moles. next divide dl by 10 to get liters. now you got moles per liter :) There is another simple way to convert miligram per dl into milimoles: 1gm/dl-multiply by 0.055= mm/litre and reverse mm/L divided by 0.055=mg/dl
No .1 mol per litre is equal to1000 mol per cubic metre
Millimole is 1000th of a mole which is 10^-3
So M is moles per litre. Therefore microM is micromoles per litre. There are 1000 litres in a metre cubed. There are also 1000 micromoles in a millimole. Though these cancel each other out, so micromolar is actually the same as millimoles per metre cubed.
First you divide by 1000 to convert to moles/litre. Then you find the molecular mass (add up atomic masses from the periodic table). Multiply moles per litre by the molecular mass and it is in grams per litre.
Normally, in mammals the blood glucose level is maintained at between 3.6 and 5.8 millimoles per litre. In humans, normal blood glucose is about 90 mg per 100ml of blood--that's about 5 millimoles.
Miles per hour Kilometres per litre Unit price Marks per unit (in exams)
So molar means moles per litre. So you have to divide by 1000 and multiply by 0.2. 0.5/1000*0.2 is 0.001 millimoles of glycine in your 0.2 millilitres.
The unit is kilograms per cubic metre but kilograms per litre and grams per cubic centimetre are also used.
The normal ranges for cholesterol should be within 3.5 to 6.5 millimoles per litre, but it is recommended to aim for 5.0 millimoles per liter or less, with levels of low density lipoprotein being 3 millions or less.
Ppm means milligrams per litre. You do not need to adjust the volume and the milli does not need to be adjusted. All you need to do is divide by the molecular weight of the solute.
kilograms per litre.
Molarity. The no of moles of the solute per litre of the solution.
Concentration, e.g. grams per millilitre or mole per Litre