If it's pure water and everything in the lab is at standard temperature and pressure, then it's 1 gram.
1000 cc (1000 ml) in one liter. One liter of water has a mass of 1 kg. 1 cc or 1 ml of water has a mass of 1 gram.
The mass = its volume. This is true if the mass of water is measured in grams and the volume is measured in cc and the density of water is 1 gram/cc. Depending on temperature, 1 gram/cc is a good approximation. In general, the relationship between water (or anything else) and its volume is mass/volume = density.
1 g/cc or 1 g/ml
depends on the type of fluid water for eg; if there is 1 gm , then vol. occupied is 1 cc as "density" of water is 1gm/cc
That is approximately 3.5 cc of water.
One cc of pure water at sea level has a mass of exactly one gram.
1 gram
You have your units mixed up. One milliliter (ml) equals one cubic centimeter (cc.) One cc of water at 4°C has a mass of one gram (g.) Kilo is the multiplier that means x1000. Therefore 1000 ml (or cc) of water has a mass of 1000 g or 1 Kilogram (Kg.)
A cc is a measure of volume, a kg is a measure of mass and it is not possible to convert one into the other. For example, 10 cc of water will have a much smaller mass than 10 cc of lead.
You can change the mass of water in two ways: increase or decrease the amount of water or change the isotopic composition of the molecules of water. The first will have no effect on the mass of 1 cc of water. The second will. If you replace the hydrogen atoms in the "normal" water molecules with deuterium atoms you will increase the density (mass/cc) of the water.
What is the weaght of one cc. of 4032 T6 aluminum
No. 1 cc equals 1 g (not mg) of water. The gramme is defined as being "the mass of one cubic centimetre of water". Strictly speaking, the kilogramme is defined as being the mass of one cubic decimetre of water. ... but 1cc = 1 mg? Definitely not, unless you are talking 1 cc of a material with a density of 1 mg per cc.
1000 cc (1000 ml) in one liter. One liter of water has a mass of 1 kg. 1 cc or 1 ml of water has a mass of 1 gram.
The mass = its volume. This is true if the mass of water is measured in grams and the volume is measured in cc and the density of water is 1 gram/cc. Depending on temperature, 1 gram/cc is a good approximation. In general, the relationship between water (or anything else) and its volume is mass/volume = density.
cc are a unit of volume, and milligrams are units of mass. They cannot be converted directly but if a particular substance say, pure water, is used, then since a cc of water has a mass of 1 g, then .5cc of pure water has a mass of 500 milligrams.
One way is by showing that water has mass. In fact, the original definition of a gram is the total mass of 1 cc (cubic centimeter, also known as 1 ml.) of water.
The 'cc' (cubic centimeter) is a unit of volume, whereas the 'gm' (gram) is a unit of mass ... (often understood as the weight). They are not directly convertible. A volume of some number of 'cc' may contain more or less grams of mass, depending on what the substance in it is. For example, 1cc of water contains 1gm of mass, but 1 cc of mercury contains almost 13gm of mass (and weighs 13 times as much as a cc of water).