There are no units of concentration. Concentration is written as density, which requires a mass measurement, and a volume measurement. The standard units for this is grams per liter.
I think you were looking for the answer to the chemistry castelearning question. The answer choices were: a) L/s b)J/g c)ppm and d)kPa. The correct answer is ppm or parts per million(: Hope this helps!
M. M stands for Molar, which is in moles/Liter. That's the unit of concentration.
Normality & molarity
Grams per liter
Milliequivalents per liter
g/L
Solvent
mol/L
There are no units of concentration. Concentration is written as density, which requires a mass measurement, and a volume measurement. The standard units for this is grams per liter.
Depletion layer is thin now. It is called depletion when the concentration is below 380 Dobson Units.
Please clarify the units of concentration of carbonate and bicarbonate. "mgl" is not a unit of concentration (it's not a unit of anything to my knowledge. To answer this question, you need the concentration of both ions. So either provide the amount of both ions AND the amount of water, or just specify the concentration (in unit of molarity, or moles per liter preferably).
Molarity, abbrev. M, units: mol/L, mmol/ml
The mass that makes up one International unit is dependent on the concentration or potency of the substance and therefore varies from substance to substance depending on what is being measured. This means that we can’t provide a converter to change milligrams to international units.
There are no units of concentration. Concentration is written as density, which requires a mass measurement, and a volume measurement. The standard units for this is grams per liter.
watt
The concentration of potassium is often expressed in units of milliequivalents per liter (mEq/L)
pH is a pure number. It doesn't have units. It is the negative log of the hydrogen ion concentration.
The mol/m3 is a unit of concentration in SI (International Sistem of Units).
In a 1 mL insulin syringe, the markings typically represent units of insulin, not milliliters. The number of units you would draw up in a 1 mL insulin syringe depends on the concentration of the insulin you are using. Common insulin concentrations are 100 units/mL and 50 units/mL. If you are using insulin with a concentration of 100 units/mL and you want to draw up a certain number of units, you simply draw up that number of units on the syringe. For example, if you want to draw up 10 units of insulin, you would fill the syringe to the 10 unit mark on the syringe. If you are using insulin with a concentration of 50 units/mL, then each unit on the syringe represents 2 units of insulin. So, to draw up 10 units of insulin in this case, you would fill the syringe to the 5 unit mark. Always make sure to use the correct insulin concentration and syringe to accurately measure and administer your insulin dose. If you are unsure about the concentration or how to use the syringe, it's important to consult with a healthcare professional or pharmacist for guidance.
The concentration can be expressed in mole/litre.
The concentration of an acid or base in solution is measured in moles per litre. The strength of an acid or base in solution is measured on the pH scale. This is the negative log of the hydrogen ion concentration. It's a pure number, there are no units.
Concentration is often defined by the number of moles per liter of a dissolved substance in a liquid. Variations include: ng/ml, ug/ml, mg/l, g/l. It really doesn't matter what the units are, as long as there are units for mass and volume.
This the molality (this term is now obsolete).
This the molality (this term is now obsolete).
There are no units of concentration. Concentration is written as density, which requires a mass measurement, and a volume measurement. The standard units for this is grams per liter.