By definition 1 liter of water at 4o C is 1 kilogram.
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.
The mass of water that will occupy 1.5 L of volume is 1.5 kg. The density of water is 1 kg/L, so 1.5 L of water would have a mass of 1.5 kg.
If an object does not sink in water, it means the object's density is less than that of water. To find the volume of such an object, you can measure its mass and then divide by the density of water (1000 kg/m^3) to calculate the volume. The formula for volume is volume = mass/density.
For an object to flat it must displace more water than it weighs. So a 1 kg hollow steel ball bust displace 1kg of water. 1 kg of water has a volume of 1 litre so the steel ball must have a volume greater than 1l. Note: 1lite = 1000cm^3
the density of water is around 1000 kg/square meter therefore 1 kg of water is around a liter.
500cc
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.
volume
The mass of water that will occupy 1.5 L of volume is 1.5 kg. The density of water is 1 kg/L, so 1.5 L of water would have a mass of 1.5 kg.
1 liter
23 L
To determine the molarity, we need the volume of the solution. Assuming the density of water is 1 kg/L, we can convert the mass of water to volume (6 kg = 6000 mL). Since glucose doesn't affect the volume significantly, we consider the volume of water only. With 3 moles of glucose in 6000 mL of water, the molarity is 0.5 M (3 moles / 6000 mL).
1 liter = the volume of 1 kg of water at 4C
10 kg of mass is equivalent to 10 liters of water, assuming the water has a density of 1 kg/L.
AnswerMeters is a length measurement, not a volume. The volume unit in CGS is the liter. Sometimes volume is expressed in cubic centimeter (cc), which is 1 milliliter. 1 kg of water is 1 liter at Standard Temperature and Pressure, by definition. Answer1 mL of water is 1 cubic centimeter of water.
Assume that you have a 25wt% solution of EG. That means you have 25 kg for every 100 kg of solution. Assuming that the EG is dissolved in water means that the solution would contain 25 kg of EG and 75 kg of water. To find the volume % you need to convert each component to a volume by using their densities. The density of water is 1000 kg/m3 and EG is 1113 kg/m3. Using this data we can figure out the volume of each component of solution. For water: 75 kg / (1000 kg/m3) = 0.075 m3 For EG: 25 kg/(1113 kg/m3) = 0.0225 m3 %Vol = 0.0225 m3 / (0.0225 + 0.075 m3) = 0.231 or 23.1% vol
The density of pure water at +4 degrees C, is 1 g/ml. The volume, then, of 5000 kg of water is 5000 liters.