At standard pressure and temperature the density = 1.0.
It doesn't matter how much you have; the density of pure water is 1 g/ml.
The mass of 100 mL of water is 100 g.
The mass of 100 mL of water is 100 g.
Mercury has the highest density with 13.534 g/mL. Water is 1.00 g/mL and copper is 8.92 g/mL.
67.0 grams of caffeine will dissolve in 100 mL of water at 100 degrees Celsius. 100mL of water = 100g of water so.. 67.0 grams of water will dissolve in 100 grams of water at 100 degrees Celsius. I pretty sure this is right, I was searching for the answer myself and it seems to work. But more accurately you will need to find the density of water at 100 ºC which is 0.9584 g/mL. So, 100g/0.9584 g/mL equals about 104 mL. Then 104 mL x 67.0g/100 mL = 69.9 g.
No. the density of platinum is 21.456 g/ml, which is much higher than the 1 g/ml density of water.
That depends on the dimensions of the container.
0.9583665 g/mL @100C
The density of water at standard temperature and pressure is 1 gram/milliliter. The size of the sample is irrelevant. If the sample is pure, then one drop of it has the same density as a tankerful of it has.
Yes, since water's density is 1g/ml then 100 g of water does equal 100 ml, but this is not true for every substance. it depends on its density ( Density*volume=mass)
((8 - 7.28)/7.28) x 100 = 9.89%
1ml = 1cm(squared) Density of water 1g/cm(cubed) Basically. 100ml of water = 100cm(cubed) = 100g
Pure water, standard temperature and pressure, etc. Mass of 100 ml of water = 100 grams
Volume = Mass / Density, so 100 grams of gold divided by 19.3 g/mL gives a volume of 5.18 mL or 5.18 cubic centimeters. 5.18 mL of gold will displace 5.18 mL of water.
this is valid for water only (or any fluid with same density as water) water density (@0°C) = 1000 kg/m^3 (actual value is 999.8395 kg/m^3) = 1 g/ml volume = mass / density = (20 g) / (1 g/ml) = 20 ml
Vinegar is made of acetic acid and water. However, the actual amount of acetic acid in water is quite low (~5%). Also, the density of acetic acid is not so different from the density of water (at 25 °C, the density of water is 0.9970 g/mL and the density of acetic acid is 1.049 g/mL). These things make the density of vinegar just about the same as the density of water (although it will be just slightly greater than water -- for a 5% acetic acid mixture, I calculate a density of 0.9996 g/mL)
Density = Mass/Volume = 25.0/100 g/mL = 0.25 g/mL
That depends on the liquid. To get the MASS, multiply the volume by the density. To get the WEIGHT, multiply the mass by the gravity.