The answer will depend on the temperature and pressure. At the pressure of 1 atmosphere (760 millimetres of Mercury), 100 ml of pure water will have a mass of
99.9840 grams at 0 deg C,
99.9972 grams at 4 deg C (its greatest mass),
99.8203 grams at 20 deg C ("room" temperature),
95.84 grams at 100 deg C.
There are 0.1 liters in 100milliliters of water because 1L = 1000mL.
100
No.100 ml = 0.1 litres
.1 Kg = 100 grams
100
Only if you have pure water in mind, then: 0.1 milliliters of pure water weigh 0.1 grams or 100 milligrams.
Only if you have pure water in mind, then: 100 milliliters of pure water weigh 100 grams. Forget syrup or oil. For that calculations you need the specific weight (density) of the material.
The answer depends on the temperature, but at room temperature (20 deg C), 100 ml of water would have a mass of 99.82 grams.
100 ml of water is 100 grams
Only if you have pure water in mind, then: 100 milliliters of pure water weigh 100 grams.
If you have pure water, standard temperature, and standard pressure,then 100 milliliters of water has 100 grams of mass.(Note: 'milliliters', not 'millimeters'.)
100 milliliters of sugar is approximately 200 grams.
The conversion of grams to milliliters depends on the substance's density. For water, 100 grams would equal 100 milliliters. However, for other substances like oil or milk, the conversion would be different due to their varying densities.
100 milliliters of water weighs 100 grams. Adding the 10 gram container, the total weight would be 110 grams.
No, 100 milliliters and 100 grams are not the same. Milliliters measure volume, while grams measure mass. The relationship between milliliters and grams depends on the density of the substance being measured.
The density of water is approximately 1 gram per milliliter at room temperature. Therefore, the density of 100 milliliters of water would be 100 grams.
I know why a lemon floats on water: the weight of a lemon is less than that of an equal volume of water. Let's throw some numbers out here, although they're ones I just made up to show you what's happening: 100 milliliters of water weighs 100 grams. The lemon you have has a total volume of 120 milliliters, but it weighs 100 grams. When you put the lemon in the water, it will displace 100 milliliters of water, gaining equilibrium. Since the lemon's volume is 120 milliliters, 20 milliliters of it are going to be out of the water. In other words, it will float. If the weight of the lemon was 100 grams and the lemon's volume was 100 milliliters, the whole lemon would be underwater since the displacement and the weight would be the same. And if the weight was 120 grams but the volume 100 milliliters, the lemon would sink since the water wouldn't be able to support the weight of the lemon.