The density of water is 1g/mL. so 25mL of water has a mass of 25g.
For pure clean water at standard temperature and pressure, 850 ml has a mass of 850 grams.
The density of water is approximately 1 gram per milliliter. Therefore, in 7 ml of water, there would be 7 grams of water.
To calculate the amount of salt needed to saturate 25 ml of water, we can use a proportion based on the solubility limit in 100 ml of water. Since 100 ml can dissolve 36 g of salt, 25 ml can dissolve 9 g of salt (25/100 * 36 = 9). Therefore, you would need to add 9 grams of salt to saturate the 25 ml of water.
Thirteen grams of water is the same as thirteen milliliters. So, if thirteen grams of water were added to the beaker, then thirteen milliliters of water were added.
Oh, dude, you're hitting me with the metric system now? Alright, so technically speaking, 25 grams of water would be equivalent to 25 milliliters because the density of water is 1 gram per milliliter. But hey, who's really measuring out water in grams anyway, right? Just grab a cup and eyeball it, like, good enough, man.
In 132 ml of water at 25 oC 266 g sucrose are dissolved.
For fresh water at room temperature, it is 25 grams
25 ml of water is equivalent to 25 grams since the density of water is 1 g/ml.
25*25*25 = 15625 cm^3 1 cm = 1 ml = 1 gram of water (since water density is about 1 gr/ml) therefore you will need 15,625 grams of water, or 15.625 kg
12.5 grams. 100ml of 25% contains 25 grams.
For pure clean water at standard temperature and pressure, 850 ml has a mass of 850 grams.
360 ml of water is 360 grams
12 grams of water is equal to 12,000 mg of water and is the same as 12,000 ml of water.
This cannot be sensibly answered. Milliliters (mL or ml) is a measure of volume, grams is a measure of weight or mass.
48 grams of water is 48 ml.
280 ml of water is 280 grams
57 grams of water is 57 ml.