Hold on here, I need to do some heavy calculation ... okay, done. One tablespoon of table salt contains 1.0 tablespoons of sodium chloride. Since the atomic weight of sodium chloride is 58.5, 1 meq of salt is 58.5 mg. Since one tablespoon = 14.8 ml and salt weights 1.02 g/ml, one tablespoon of salt weighs 15.2 g or 15,200 mg. So one tablespoon of salt = 15,200 / 58.5 = 260 mEQ.
No. You'd need about 4 tablets of 99 mg KCl to equal 10 mEq of prescription-strength KCl, 8 tablets to equal 20 mEq.
One gram atomic mass of calcium reacts with two gram molecular masses of hydrochloric acid to form one gram formula mass of calcium chloride and one gram molecular mass of diatomic hydrogen gas.
The empirical formula for aluminum chloride is AlCl3, and its gram formula mass is 133.34. The formula shows that each formula unit contains one aluminum atom, and the the gram atomic mass of aluminum is 26.9815. Therefore, 18(133.34/26.9815) or 89 grams, to the justified number of significant digits, of aluminum chloride will be produced.
Barium chloride is BaCl2
Hold on here, I need to do some heavy calculation ... okay, done. One tablespoon of table salt contains 1.0 tablespoons of sodium chloride. Since the atomic weight of sodium chloride is 58.5, 1 meq of salt is 58.5 mg. Since one tablespoon = 14.8 ml and salt weights 1.02 g/ml, one tablespoon of salt weighs 15.2 g or 15,200 mg. So one tablespoon of salt = 15,200 / 58.5 = 260 mEQ.
No. You'd need about 4 tablets of 99 mg KCl to equal 10 mEq of prescription-strength KCl, 8 tablets to equal 20 mEq.
Potassium has a gram atomic mass of 39.1, to three significant digits (one more significant digit than "20 meq" has). Therefore, one meq = 39.1 mg, and 20 meq = 20(39.1) = 7.8 X 102 mg, to the justified number of significant digits.
.008 meq
it depends on what you are measuring. Meq is a measure of charge. If you are measuring H+ which has one positive charge, 1 mmol = 1 meq for Ca2+, 1 mmol = 2 meq so the conversion will depend on the charge of the ion or molecule
One Banana has about 10 MEQs
0g as it contains only sodium and chloride
The gram atomic mass of calcium is 40.08, the formula of anhydrous calcium chloride is CaCl2, showing that each formula unit contains one calcium atom, and the gram formula mass of anhydrous calcium chloride is 110.99. Therefore, 19050.9 grams of calcium chloride contains 19050.9(40.08/110.99) or 6.880 X 103 grams, to the justified* number of significant digits. ____________________________________________ *There may well be tables of gram atomic and gram formula masses more modern than the one I am using that would allow for more significant digits in the answer.
Millequivalents is a form of stating the amount of substance in a solution or chemical composition. It is usually abbreviated to mEq or meq. One example of its use would be the healthy level of potassium in human blood is between 3.5 and 5.0 mEq per litre.
One gram atomic mass of calcium reacts with two gram molecular masses of hydrochloric acid to form one gram formula mass of calcium chloride and one gram molecular mass of diatomic hydrogen gas.
Unequivocally, exactly 1 gram in one gram.
i believe 10 meqs of potassium is equal to 390 mg's of potassium, therefore, one meq, is equal to 39 mg's potassiumNot sure where you get your answer but according to drugs.com 10meg is equal to 750 mg of potassium20mEq of potassium chloride is 781.960 mg of elemental potassium [K], and 709.060 mg of elemental chlorine [Cl] (which is 1491.0 mg of potassium chloride [KCl]). Here's how to figure it:_________________mg = (mEq • atomic, molecular or formula weight) / valenceAtomic weight of potassium [K] is 39.0983Atomic weight of chlorine [Cl] is 35.453The molecular weight of potassium chloride [KCl] is sum of the atomic weights above: 74.551 (rounded)The valence of potassium chloride is 1Thus:(20mEq potassium chloride • 74.551) / 1 = 1491.0 mg potassium chlorideWhich breaks down to 781.960 mg of elemental potassium [K], and 709.060 mg of elemental chlorine [Cl]._________________