I am pretty sure that 700mL of water will be 700 grams of water. The density of water is 1, so you use the equation density=mass/volume. You would plug everything in but mass (which you don't have). 1(700mL)= mass = 700 grams. 700 grams is around 1.5 lbs. The conversion of kg's to lb's is 1kg=2.2lbs.
The volume of water is the same as the mass of water. So if you have 100ml of water you actually have 100g of water.
"Khmara" is a Russian word that translates to "cloud" in English. It is commonly used to describe a mass of condensed water vapor floating in the sky.
Yes, the Great Pyramid of Giza is one of the largest pyramids in the world in terms of volume and mass. It is not the tallest, but it is the most famous and well-preserved of the ancient Egyptian pyramids.
No, Paris is not built on top of a mass grave. The city has a long history and has seen many changes over the centuries, but it is not situated on a mass burial site.
Most caves are in limestone. Limestone is a sedimentary rock laid down in beds and fractured into joints by tectonic processes. These discontinuities allow water to pass, initially extremely slowly, through the rock mass from catchment to spring. Further, and crucially, limestone is slightly soluble in rain-water, so over time the water gradually dissolves out conduits that become cave passages. The whole process is far more complex that that, with many local variables, but the foregoing is the gist of it.
To find the volume of the bottle, you need to subtract the weight of the water from the total weight of the bottle and water. Then, divide this difference by the density of water to find the volume displaced by the water and consequently the volume of the bottle.
Objects float if they displace more than their own mass. This means that if when they are put into a liquid the mass (weight) of the volume of the liquid that "has to get out of the way" is greater than the mass of the object, it will float.An empty glass bottle floats in water because the bottle is filled with air, yet the bottle's shape keeps water out and the mass of the volume of the displaced water exactly equals the mass of the bottle (and the air inside).
Density of water is 1000kg/m3. Also, Volume = Mass/Density = 1/1000 = 0.001m3. So, volume of water that has mass of 1 kg is 0.001m3.
The mass of a bottle of mineral water can vary depending on the size and amount of water it contains. On average, a standard 16.9 oz (500 ml) bottle of mineral water weighs around 500 grams (1.1 pounds).
The metric mass unit used to measure the amount of liquid a water bottle holds is typically liters (L) or milliliters (mL). These units indicate the volume of liquid that can be contained in the bottle, rather than the mass of the liquid itself.
Bottles come in innumerable sizes and dimensional variations. Thus, there is a not a single formula to calculate the volume of every bottle. However, volume can be calculated through instrumentation. For example the bottle can be manually filled with measures of known volume. Calculations can also be done be estimating the bottle into a cylinders dimensions of volume equaling 3.14*radius^2*height.
mass of empty RD bottle is 5.8 gram.(volume=25 ml)
Assuming that it is a half litre bottle of water, the water would have a mass of 500g so the bottle would have a mass of 95g. However it might be a pint bottle of water, in which case the water would have a mass of 568g, leaving the bottle with a mass of 27g.
The answer will depend the volume of the bottle and the temperature and pressure. Assuming that the experiment is carried out at normal temperature (20 deg C) and one atmospheric pressure, the density of water is 0.9982071 grams per cm3. So, if the volume of the water in the bottle is V cm3 = V cc or V ml, then the mass of the filled bottle is 25 + V*0.9982071 grams.
If the bottles are identical, then the bottle of waterhasmore mass in it than the bottle of steam.
The idea is to divide the mass by the volume. I assume the half liter is what fits inside the bottle; in theory, the actual volume of the bottle plus the contents should be slightly more. Also, in theory you'll have to add a small amount of mass for the air inside. If the bottle is filled with air, then you'll actually get the average density of the bottle plus the air.
The volume of water is directly proportional to its mass. This means that as you increase the volume of water, the mass will also increase proportionally. Conversely, if you decrease the volume of water, the mass will decrease accordingly.