Only if you think of pure water you can say: 1 liter of pure water weighs 1 kilogram or 1000 grams. Forget syrup or oil. For that calculations you need the specific weight of that material.
0.9969040 g/mL @78F
1 liter = 1,000 ml 1,000 grams = 1 kilogram If one ml of water has 1 gram of mass, then 1 liter has 1 kilogram of mass. On Earth only, that kilogram of mass weighs 9.8 newtons (2.205 pounds). (rounded)
The density of water generally is around 1kg/L. Pretty simple : 1g/mL or in SI units, 1 kg/L or 1000 kg/m^3
Density is 2 kg/mL
7256 mL of pure water has a mass of 7,256 kg.
The density of pure water at +4 degrees C, is 1 g/ml. The volume, then, of 5000 kg of water is 5000 liters.
Only if you have pure water in mind: 150 milliliter of pure water weigh 150 gram.
Pure water has the highest density at the temperature of 3.98 degrees Celsius. The density is then 999.975 kg/m3 or 0.9999750 g/cm3 or 0.9999750 g/mL. 1 mL of pure water weighs at 3.98 degrees Celsius nearly 1 g or exactly 0.999975 gram.
Adding 20 mL fresh pure water to fresh pure water: the pH remain unchanged.
It's not! Pure water has a density of 1.000 g/ml. Sea water has a density of 1.025 g/ml and saturated salt water has a density of roughly 1.2 g/ml.
The density of pure water is 1000 kg/m3. The SI unit is really kilograms per cubic meter. ------- The density of ultrapure water at 4 0C is 999,9720 kg/m3.
That is 0.1 Kg.
Density rho = mass / Volume. Water has a density of 1,000 kg/m3 = 1,000 g/L = 1.000 kg/dm3 = 1.000 kg/L = 1.000 g/cm3 = 1.000 g/mL at the temperatur of 3.98 degrees Celsius. Temperature in degrees Celsius and the density of water: 1 ................. 999,90 2 ................. 999,94 3 ................. 999,96 4 ................. 999,97 5 ................. 999,96 6 ................. 999,94 7 ................. 999,90 You see the highest density is only at 4 degrees Celsius.
kg is a mass, ml is a volume. However with water, 1 kg = 1 liter = 1000ml
150 milliliters of pure water weigh 150 grams.
The maximum density of pure water, at 4 deg C and pressure of 760 ml of mercury, is 999.9720 kg/m3. or 999.9720 g/litre. So 1000 grams would occupy at least 1000.000028 millilitres.