Milliequivalent Milliequivalent • In the United States, the concentration of electrolytes in solution is expressed in • In the United States, the concentration of electrolytes in solution is expressed in terms of milliequivalents (mEq) milliequivalents (mEq)-EXCEPTION: Phosphorous is usually ...
Because of this, the ionic equivalence of electrolytes in the body to the hydrogen ion are also expressed as 1/1000 of an equivalent: a milliequivalent, abbreviated mEq.
What would be the milliequivalent weight ? a. 81 b. 9 c. 3 d. 27 16. How many mEq of Na+ presents in 0.9% 250cc of normal saline solution ? (MW = 58.5 gram/mole) a. 25.53 mEq b. 15.67 mEq c. 38.46 mEq d. 45.20 mEq 17.
© 2001 MED-PASS, Inc. (Revised August 2008) SC - 9 Clean Catch Urine Specimen Purpose The purpose of this procedure is to collect a clean catch urine specimen for laboratory analysis.
Agronomy 354 Milligram Equivalent Weight (Milliequivalent Weight) Milliequivalent weight (or mass) and milliequivalents are important concepts in soil science because they are useful in understanding charge in soil and quantities of ions (often nutrients) that various soils can hold.
By way of example, a reported level of 36 ppm magnesium divided by 12.2 ppm per milliequivalent per liter equals 2.95 milliequivalents per liter magnesium, or: 36 ppm Mg ÷ 12.2 ppm/meq/l = 2.95 meq/l Mg When added together, the meq/l concentrations of cations (positively charged ions) should approximately ...
This unit takes into account the electrical charge (valence) on the ion: # of milliequivalents = # millimoles x valence Thus, 1 millimole of Na + would be equal to (1 millimole x 1) = 1 milliequivalent. 1 millimole of Ca ++, however, would be equal to (1 millimole x 2) = 2 milliequivalents.
The standard is one milliequivalent of hydrogen equals 20 lb/acre of hydrogen. Since the atomic weight of hydrogen is one, to convert a milliequivalent of other elements to pounds per acre, multiply its atomic weight by 20.
CONVENTIONAL AMINOGLYCOSIDE DOSING AND MONITORING IN ADULTS 1. Determine patient's dosing weight (DW) a. Non-Obese patients: Use ideal body weight (IBW) unless total body weight (TBW) is less.
Titration Quantitation: Compute sulfite content, expressed in µg SO 2 /g food (ppm), as follows: SO 2 (ppm) = (32.03)(V Corr)(N)(1000) / W Sample, Where 32.03 = milliequivalent weight of SO 2 N = Normality of NaOH titrant.