nominally 455 grams
The mass of water is 1g per cm3
because when it contain water the mass of water will be the one to be obtained
No
okk first find like a tube thingy and find the mass of it on the balance and write it down somewhere then put the water in the tubee and find the mass and write it downn when your donee subtract the mass of the tube from the mass of the tube with water in it and your answerr is the mass of the water ***make sure the tube has no water in it or ANYTHING because it could change the mass okk first find like a tube thingy and find the mass of it on the balance and write it down somewhere then put the water in the tubee and find the mass and write it downn when your donee subtract the mass of the tube from the mass of the tube with water in it and your answerr is the mass of the water ***make sure the tube has no water in it or ANYTHING because it could change the mass
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.
It displaces 1 pound of water in terms of its mass, if you were to convert to volume, it is a simple conversion with any mass, water has a density of 1 meaning that 1kg of water takes up 1 litre of volume, so, a 1 pound fish roughly displaces 455mL of water.
Yes, water has mass. All matter, of which water is one kind, has mass.
Full mass = 52.2 kgEmpty mass = 3.64 kgFull mass = (MT mass) + (water mass)52.2 = (3.64) + (water mass)Water mass = 52.2 - 3.64 = 48.56 kg
3.6
mass of liqid water before evaporation=mass of liquid water after evaporates + mass of gaseous water.
Assuming that the water in the can is pure water (ie. with a specific gravity of 1) then the mass of the water in the can is 5.5kg (1L of pure water has a mass of 1kg), leaving the mass of the can to be 850g.
The mass of water is 1g per cm3
because when it contain water the mass of water will be the one to be obtained
4 kg is the mass of the water. Thus, 4 kg of water has a mass of 4 kg.
No
The mass and the volume of the water are directly proportional. When the volume of water increased, the mass of water increased too and vice versa. Because when we divide the mass and the volume of water, we get the constant value called density of water.
The volume of water is the same as the mass of water. So if you have 100ml of water you actually have 100g of water.