To convert grams (g) to millimoles per liter (mmol/L) for a substance, you need to know the molar mass of the substance. Then you can use the formula: Concentration in mmol/L = (mass in g) / (molar mass in g/mol) * 1000.
xx mmol x 1 mole/1000 mmol x 58.5 g/mole
To convert from mg to mmol for creatinine, you need to know the molecular weight (MW) of creatinine, which is 113 g/mol. To convert, divide the mass in milligrams (mg) by the molecular weight in milligrams per mmol (113 mg/mmol). For example, if you have 100 mg of creatinine, the conversion would be 100 mg / 113 mg/mmol = 0.88 mmol.
1 mEq=1 mmol/valence e.g.For sodium, 1 mEq=1mmol/1 (valence of sodium=1) means, 1 mmol sodium=1 mEq of sodium take for calcium,valence=2 1 1 mEq of calcium=1mmol/2=0.5 mmol of calcium
To convert mmol/L of ethanol to blood alcohol content (BAC) in g/dL, you can divide by 420. Therefore, 10.9 mmol/L of ethanol would be approximately 0.026 BAC.
To convert sodium from mg to mmol, you need to divide the amount in milligrams by the molar mass of sodium (22.99 g/mol) to get the amount in millimoles. The formula is: mmol = (mg รท molar mass of sodium).
To convert milligrams (mg) of urea to millimoles (mmol) of urea, you need to know the molar mass of urea, which is 60.06 g/mol. Divide the mass in mg by the molar mass to get the amount in millimoles. For example, to convert 100 mg of urea to mmol, you would divide 100 mg by 60.06 g/mol to get approximately 1.67 mmol of urea.
To convert mmol to grams, multiply by the molar mass. The molar mass of sodium is approximately 23 g/mol. Therefore, 80 mmol of sodium is equal to 80 mmol * 23 g/mol = 1840 grams of salt (sodium chloride).
54,9 mmol of sulfur dioxide is equivalent to 3,517 g.
To convert 3 mmol of alcohol to blood alcohol concentration, you would need to know the volume of distribution in the body. Without this information, a direct conversion is not possible. Blood alcohol concentration is typically measured in units of mass per volume (e.g., g/dL or mg/L), not in mmol.
To determine the number of atoms in 133 g of calcium, you first need to calculate the moles of calcium using the molar mass of calcium, which is 40.078 g/mol. Then, you use Avogadro's number (6.022 x 10^23 atoms/mol) to convert moles to atoms. This will give you the number of atoms in 133 g of calcium.
500 mL * 100(mMol/mL) = 50 mMol NaHCO3 , hence50 mMol NaHCO3 = 50(mMol) * 84(mg/mMol) = 4200 mg = 4.2 g NaHCO3 in 500 mL