The mass of 1 L of water is 1 kg.
One L of gold would have a mass approximately 19 times that of 1 L of water. This is because the density of gold is ~19 x that of water.
1.25 kg.
10 kg is mass = STP = 10 ltr volume
10 liters = 10 kg (22.05 lbs) of water, since water has a density of 1kg/L.
If the titanium in bicycle frame displaces 0.314 L of water and has a mass of 1.41 kg, the density of the titanium in gcm-3 or gram per cubic centimeter is approximately 4.49. This is based on the formula that density is equivalent to mass divided by volume.
Drop 10 coins of the same size and mass into a container filled with water, making sure that the water that overflows from the container is collected. Now measure the volume of the water overflow an multiply it with the density of water which is 1 kg/l. Now divide the total mass by 10 to get the mass of one coin.
One L of gold would have a mass approximately 19 times that of 1 L of water. This is because the density of gold is ~19 x that of water.
The mass of 10 mL of water is 10 g.
3000 g
1 Volume of water is nothing but volume of water measured in liters or ml EG Volume = mass/density 1 Volume= 1 gm/1 gm/cc = 1 cc therefore 10 volume = 10 cc if it is in KG, 10 volume= 10 kg/10kg/L = 10 L
The density of water is close to 1kg/l. So 75ml will have a mass of around 75g
1.25 kg.
10 kg is mass = STP = 10 ltr volume
1 litre of water. density of water is 1kg/L
The mass doesn't change in this case. Only the volume changes.
1 L of H20 has a mass of 1 kg
1 mL of water has a mass of approximately 1 g. (The mass of 1 milliliter of water is approximately 1 gram.) 1 L of water has a mass of approximately 1 kg. (The mass of 1 liter of water is therefore approximately 1 kilogram.)