1 liter
1 liter = the volume of 1 kg of water at 4C
A depth is required to answer your question. The mass of the water will be one million tonnes per metre of depth.
Mass = kg Volume = liter (pints and gallons and also quarts in the USA) Heat Capacity - Joules per Kg per Kelvin etc Is that what you meant?
1 kg of water has a volume of approximately 1 liter.
Assuming average density of person @ 1 kg per litre then: volume (litres) = mass (kg)
500cc
The "specific Volume" of a substance is its volume per unit mass, measured in cubicmeters per kilogram. NT: to find density of any substance is the reciprocal of its specific volume. : density = 1/specific vol. kg/m3(unit)
not possible to answer unless given 300 kg per what volume
The volume of a kilogram of water is approximately 1 liter. This is because the density of water is close to 1 gram per cubic centimeter. Since there are 1000 grams in a kilogram, the volume of a kilogram of water is about 1000 cubic centimeters, which is equivalent to 1 liter.
The volume of water can be calculated using its density, which is approximately 1000 kg/m³. By dividing the mass of water (0.054 kg) by its density, we can find the volume. Therefore, the volume of 0.054 kg of water is approximately 0.000054 m³ or 54 cm³.
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.
To determine the volume of water that can be boiled using 3.0 kg of energy, we first convert the energy from kilograms to joules. Assuming the energy is in kilograms of mass equivalent (using E=mc²), 3.0 kg of energy is equivalent to about 2.7 x 10^16 joules. The energy required to boil water is approximately 2,260 joules per gram (the latent heat of vaporization). Thus, dividing the total energy by the energy needed to boil water gives you about 11,900,000 grams, or approximately 11,900 liters of water.