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.
458
The pumpkin's mass is 4.8 kg, and 0.9 of its mass is water. This means 0.1 of its mass is not water. To find the mass of water: 4.8 kg x 0.9 = 4.32 kg of water To find the mass of not water: 4.8 kg - 4.32 kg = 0.48 kg of not water
Yes, water has mass. All matter, of which water is one kind, has mass.
The difference in mass between the tank when empty and when filled represents the mass of the water. Therefore, the mass of the water in the tank is 52.2 kg (when full) - 3.64 kg (when empty) = 48.56 kg.
To find water by mass in a compound, you can calculate the difference in mass before and after heating the compound to drive off the water. The lost mass represents the mass of water present in the compound. You can then calculate the percentage of water in the compound by dividing the mass of water by the total mass of the compound and multiplying by 100.
To find the mass of the beaker with water, you would need to know the mass of the empty beaker and the density of water. The mass of the water can be calculated by multiplying the volume of water (100 mL) by the density of water. Finally, add the mass of the empty beaker to the mass of the water to get the total mass of the beaker with water.
Yes, water vapor does have mass. Water vapor is a gas composed of water molecules, and like all matter, it has mass. However, the mass of water vapor is much lighter compared to liquid water.
because when it contain water the mass of water will be the one to be obtained
Yes, liquid water does have mass. If you have one litre of water - then you have one kilogram of water (weight/mass). The same applies for if you have twenty litres of water... you then have twenty kilograms of water.
The mass of water does not increase when copper sulfate is added to the water, unless the copper sulfate is hydrated. The mass of the mixture of water and copper sulfate, of course, does increase.
No
To find the mass of the can, you first need to convert the volume of water from liters to kilograms. Given that the density of water is approximately 1 kg/L, the mass of 5.5 liters of water is 5.5 kg. Subtracting this from the gross mass of 6.350 kg gives the mass of the can, which is 0.85 kg or 850 grams.
When water evaporates, the water molecules gain energy from the surroundings to overcome intermolecular forces and escape into the air as vapor. While the water loses mass during evaporation, this mass is not lost but rather converted into the potential energy of the water vapor. Therefore, the total mass and energy of the system (water and surroundings) remains constant, demonstrating conservation of mass and energy.