1 mMol of k3po4 = 6 mEq as phospate
1 mmol of Kphos = 1.46 KCL
I believe it is Potassium Hydride. I believe it is Potassium Hydride.
1
General Formula for this type of reaction is ACID + BASE ---> SALT + WATER H3PO4 + KOH the base is potassium:K(charge+1) the acid is phosphate(charge-3) -to neutralize the -3 charge you need a +3 charge therefor K must equal 3K the correct formula is K3PO4 the left behind H will form with OH and form H20 H3PO4 + KOH ----> K3PO4 + H2O..... unbalanced H3PO4 + 3KOH ---> K3PO4 + 3H20 ...... BALANCED Above reaction is the net reaction product. Reaction will complete in three steps. 1. First Potassium di hydrogen phosphate will be produced 2. Further neutralization will take place then to form Di Potassium Hydrogen Phosphate 3. Then, finally Potassium Phosphate Tri Basic will be formed. However the solubility of Potassium Di Hydrogen Phosphate in water is far better than of Potassium Phosphate Tri Basic.
1 mmol sodium = 23 mg sodium chloride 80 mmol sodium chloride = 80 x 23= 1840 mg sodium chloride
The answer is 2.53 mEq.Here is my work:99mg Potassium x (1mmol/39.0983mg potassium) x (1mEq/1mmol) = 2.53 mEq* The 39.0983 comes from the atomic mass of Potassium which means that 39.0983 grams = 1 mol (which also means 39.0983 milligrams = 1 millimol (mmol). 1 mmol of potassium = 1 milliequivalent (mEq) because milliequivalents are just the number of mmols of charges (positive/negative), and since potassium has 1 positive charge 1 mmol = 1 mEq.This is the over-the-counter dose. Most prescriptions are for 20mEq doses but usually range from 8mEq to 40mEq.
Milli equivalents and milli moles are units used to describe molecular or ionic grades of concentration. A milli equivalent or mEq is derived by dividing the concentration in millimol or mmol by the valency of the ion involved.Eg: 1 mEq of sodium Na+ = 1 mmol of sodium (because valency is 1)whereas 1 mEq of Ca2+ = .5 mmol of calcium. (because valency is
1 mmol of Kphos = 1.46 KCL
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
yes
390 mg is 10 meq if dealing with 'elemental' Potassium 2350 mg is 10 meq if dealing with Potassium Gluconate
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
In general "potassium phosphate will have 8 atoms, but WHICH 8 depends on which potassium phosphate you are talking about ("potassium phosphate" refers to all the phosphate salts of potassium).Monopotassium phosphate (KH2PO4 ) has 1 potassium, 2 hydrogens, 1 phosphorous and 4 oxygens for a total of 8 atomsDipotassium phosphate (K2HPO4) has 2 potassiums, 1 hydrogen, 1 phosphorous and 4 oxygens, for a total of 8Tripotassium phosphate (K3PO4) has 3 potassiums, 1 phosphorous and 4 oxygens, for a total of 8 atoms
Per FDA factsheet ... Potassium chloride extended-release capsules, USP, 10 mEq is an oral dosage form of microencapsulated potassium chloride containing 750 mg of potassium chloride USP equivalent to 10 mEq of potassium.
The question is vauge. Moles in atomic scale are equilivant to the number of electrons in the vallance of the magnesium atom ( the outer ring of electrons). Usually supplements are measured in milligrams or sometimes in international units (iu). What are you trying to find?
Potassium is K (with a 1+ valence) and the phosphate anion is PO4 (with a 3- valence). Thus, it takes 3 K's for each PO4. The formula for potassium phosphate is K3PO4.
KPO4 does not exist. PO4 has a 3- charge, and K has a 1+ charge. So, you need to have K3PO4 to have potassium phosphate.