Want this question answered?
Because the word "percent" derives from per + cent= per 100.Because the word "percent" derives from per + cent = per 100.Because the word "percent" derives from per + cent = per 100.Because the word "percent" derives from per + cent = per 100.
780 out of 100 is 780 per cent. "Per Cent" = "Out of 100"
115 per 100 = 115%
29/100 (percent=per cent. or per hundred, so 29 percent is 29 per 100)29/100
what are the domestic goods rate per km for 100 kgs.
How full should a 1ml oral syringe be to have 2.5mg in it??
The standard dose of Vitamin B12 delivered by intramuscular injection is 1,000 mcg. This is equal to one syringe once per day.
The insulin syringe is marked in units of insulin. In the US most (I don't know if there is any other still distributed in US) insulin is U-100. U-100 will have 100 units per mL.So if you take 50 units of U-100 insulin, you are taking 1/2 mL. The syringe makes iteasy to take the number of units you need, with the needle made so the insulin won't clog in it, yet glide in easily into the skin. The insulin syringe is made to deliver the insulin dose just under the skin (subcutaneous) NOT into the muscle.
They are made for administration of specific measurements of either insulin or the antigen for TB testing called PPD (Purified Protein Derivative). Both types of syringes are calibrated into "units". Unit measurements are fixed measures but specific to each type of medicine/solution as to their volume. A unit of insulin is not the same thing as a unit of TB antigen, so the TB syringe can not be used in the place of an insulin syringe. Insulin is administered with the insulin syringe "subcutaneously" (under the skin) in the subcutaneous (sub Q) tissue. The needle is slightly longer than that on a TB syringe. The antigen solution is administered in the TB test "intradermally" (within the skin/between the layers of the skin) instead of under the skin, so the needle is shorter. The amount of liquid in a dose of TB antigen is much smaller than the amount usually given of insulin. Therefore, the barrel of the TB syringe is smaller in diameter to allow such very small amounts (drops) of antigen to be measured. In addition, insulin syringes come in two scales of measurement: U-100 and U-40. This on the label of the syringes indicates which type of insulin they are made to measure and administer. The insulin vial will also be marked either "U-100" or "U-40". One strength is 100 units of insulin per mL and the other is 40 units of insulin per mL. A different insulin syringe is need to measure U-100 than the type used to measure U-40. Unit calibration on the syringe used must be matched to the "strength" of the insulin being used. U-100 insulin has 1/100 of a mL volume per unit (equal also to 1/100 of a cc). U-40 insulin has 1/40 of a mL volume per unit.
Read the bottle for how mg/(per) mL is in the bottle and divide 100mg by how many mg/mL. That number is the number of mL you should put in the syringe. Ie. If bottle says 5mg/mL then divide 100/5=20. Suck up 20mL into syringe. Have fun.
Add drugs to syringe as per orders. Add an extra 1 ml to syringe to allow for priming the line. Line is usually attached to saf-t intima or a butterfly. Attach line to syringe and prime line and needle set. Then attach syringe to Nikki T34. and start as per instructions. Site needle sublet. Cover with transparent dressing etc.
The compression rate is the amount of compressions per a unit of time. The CPR rate is 100 compressions per minute; which means if you gave compressions straight through, no stopping, for 1 minute, you would have given 100 compressions. However, we give 30 compressions and then give 2 breaths, then back to compressions, so we average 75 actual compressions per minute, but we give the compressions at a rate of 100 per minute.
They are made for administration of specific measurements of either insulin or the antigen for TB testing called PPD (Purified Protein Derivative). Both types of syringes are calibrated into "units". Unit measurements are fixed measures but specific to each type of medicine/solution as to their volume. A unit of insulin is not the same thing as a unit of TB antigen, so the TB syringe can not be used in the place of an insulin syringe. Insulin is administered with the insulin syringe "subcutaneously" (under the skin) in the subcutaneous (sub Q) tissue. The needle is slightly longer than that on a TB syringe. The antigen solution is administered in the TB test "intradermally" (within the skin/between the layers of the skin) instead of under the skin, so the needle is shorter. The amount of liquid in a dose of TB antigen is much smaller than the amount usually given of insulin. Therefore, the barrel of the TB syringe is smaller in diameter to allow such very small amounts (drops) of antigen to be measured. In addition, insulin syringes come in two scales of measurement: U-100 and U-40. This on the label of the syringes indicates which type of insulin they are made to measure and administer. The insulin vial will also be marked either "U-100" or "U-40". One strength is 100 units of insulin per mL and the other is 40 units of insulin per mL. A different insulin syringe is need to measure U-100 than the type used to measure U-40. Unit calibration on the syringe used must be matched to the "strength" of the insulin being used. U-100 insulin has 1/100 of a mL volume per unit (equal also to 1/100 of a cc). U-40 insulin has 1/40 of a mL volume per unit.
Mass divided by volume is the formula for density. Density is expressed as mass per unit of volume.
1.2 millilitres
Sub Q (under the skin) in the neck with a needle and syringe. Look on the bottle to calculate the dosage for your calf: it should be on a cc (or mL) per 100 lb basis.
The rate for CPR chest compressions is 100 per minute; adult, child, and infant.