We’re all used to hearing that one cc is equal to one milligram, but do you know what that means? The answer may surprise you. It turns out, one cubic centimeter is actually equivalent to a milliliter. Using the milligram to measure volume is very convenient, but you’ll want to know what exactly one cubic centimeter is, and how to convert from one cc to mg.
100 cc = 1000 milligrams
If you’re trying to calculate the mass in grams, one teaspoon has a volume of 500 milligrams. The metric system uses the milligram as its unit of mass. It’s equivalent to 1/1,000 gram or 0.0154 grain. One cubic centimetre (or 7.5 mL) equals one milligram. As such, 100 cc = 1000 milligrams.
The cubic centimeter is a unit of volume, and is denoted by cm3. Using this conversion, we can determine the mass of one gram in a cubic centimeter. The milligram is the metric system’s standard measuring unit for mass, and is written as mg. A cubic centimeter has a mass of ten thousand times smaller than a gram. A 100-unit syringe holds one ml of 1% insulin. Many IV and IM drugs are given in mg per cc, such as Kenalog 20 mg or 40 mg per ml.
In medicine, the quantity of insulin you can inject in one single ml is usually given as a 100-unit syringe. The syringe is calibrated in cc by reading the liquid volume on the top and bottom ring, and is also marked with the number of units per ml. 100 units of insulin are equal to 1000 milligrams. It’s important to remember that 100 cc equals 1000 ml, and a milliliter is one hundredth of a ml.
The cc is the metric equivalent of a cubic centimeter, which is equivalent to 1,000 milligrams. There are two types of syringes, as well as many different sizes and types of liquids. One cc equals five milliliters, and a ten-cc syringe holds one kilogram. So, how many milligrams is 100 cc?
A milliliter is the unit of mass used in the metric system. It is equal to one thousandth of a liter. As such, a milliliter is the unit of liquid volume, and a thousand milliliters equal one gram. The two units are often used interchangeably and are useful in fluid mechanics and chemical structures. They are also comparable in terms of volume.
