If the water is pure, and the temperature and pressure are both at standard values,then the mass of one milliliter of water is 1 gram.
1 milliliter or 1 cubic centimeter of pure water weighs 1 gram, or has the mass of 1 gram.
One milliliter of pure water.
Grams are mass or weight and milliliters are volume, so they cannot be directly converted except for substances having the same density as water. 1 milliliter of pure water at standard temperature and pressure has a mass of 1 gram.
27 grams.
If the water is pure, and the temperature and pressure are both at standard values,then the mass of one milliliter of water is 1 gram.
1 milliliter or 1 cubic centimeter of pure water weighs 1 gram, or has the mass of 1 gram.
1 milliliter or 1 cubic centimeter of pure water weighs 1 gram, or has the mass of 1 gram.
One milliliter of pure, clean water at standard temperature and pressurehas a mass of 1 gram, or 0.001 kilogram.
1 milliliter of pure water, at standard temperature and pressure, contains 1 gram of mass. 1 gram of mass is equal to 1,000 milligrams of mass. On earth, 1 gram of mass weighs (0.001 x 9.8) = 0.0098 newton (about 0.035 ounce).
Only if you have pure water in mind: 150 milliliter of pure water weigh 150 gram.
It depends on the purity, temperature and pressure: 1500 ml of pure water at 4 deg C and 760 ml of mercury, has a mass of 1499.958 grams. Near enough 1500 grams.
One milliliter of pure water.
Only if you have pure water in mind: 1.5 milliliter of pure water weigh 1.5 gram.
Grams are mass or weight and milliliters are volume, so they cannot be directly converted except for substances having the same density as water. 1 milliliter of pure water at standard temperature and pressure has a mass of 1 gram.
The conversion of milliliters to grams depends on the density of the substance in question. For water, which has a density of 1 gram per milliliter, 50 milliliters would be equal to 50 grams.
Yes, all samples of pure water have the same mass because the mass of water is determined by its chemical composition, which consists of two hydrogen atoms and one oxygen atom. This means that regardless of the volume or container, the mass of pure water remains constant.