Since the density (mass divided by volume) of water is about 1.0 g/mL the volume of 6.5 gram is
6.5(g) / 1.0(g/mL) = 6.5 mL
Since the density (mass divided by volume) of water is about 1.0 g/mL the volume of 6.2 gram is
6.2(g) / 1.0(g/mL) = 6.2 mL
Volume x Density = Mass
Volume x 56 = 454
Volume = 8.1071
Volume is about 8ml (or cm3)
56ml
4 g (1 mole) of helium will occupy 22.414 liters. So, 15 g will occupy 84.05 liters
250g
Its density decreases from that of liquid water from 1g / cc, to 0.9167 g / ccVolume = mass / densitySo: volume of 1g of water = 1/1 = 1 ccvolume of 1 g of ice = 1/0.9167 = 1.0909 ccSo % increase = increase / original volume = 0.0909 / 1 = 9.09 / 100= 9.09 % increase in volume from liquid water to ice
Trial results are 10.045 g, 9.569 g, 10.170 g, 10.114 g, and 9.752 g. Density is 0.99704 g/mL.
The volume of the solution is 57 mL.
Buoyant force = Density of the water * g * Volume of displaced water For the ship to float, the buoyant force must be equal to the weight of the ship. Density of the water * g * Volume of displaced water = m * g Density of the water * Volume of displaced water = m When you multiply the density of water by the volume of displaced water, you get the mass of the ship.
The density is 0.625 g/cm3
4 g (1 mole) of helium will occupy 22.414 liters. So, 15 g will occupy 84.05 liters
250g
density=mass/volume
It depends on if they are solid or liquid.
65 cubic metre per second
65 g = 65,000 mg
The density of pure water at +4 degrees C, is 1 g/ml. The volume, then, of 5000 kg of water is 5000 liters.
lead and water will occupy the same volume. however the Density of lead is 207.2 g/L (grams per liter) and the Density of H2O is only 18.02 g/L so if you had the same volume of lead and water the lead would be heavier. But if you had the same Weight of both water and lead the water would have a larger volume.
Any object with an average density of 1.538 g/cc.
Gases are less dense than liquids, so the space between the particles larger which explains the larger volume.