Yes, at 3.98 °C one milliliter (cubic centimeter) of water has a mass of 1.00 gram
The answer depends on the temperature, but at room temperature (20 deg C), 100 ml of water would have a mass of 99.82 grams.
What is the answer
100 centigrams = 1 gram
1 ml of water has a mass of approx 1 gram so 50 ml = approx 50 grams. Suppose x grams of sugar are required for a 3% (by mass) solution. Therefore, x/(50+x) = 3/100 That is 97x = 150 so that x = 150/97 = 1.546 grams, approx.
100 mL equals how many hL
110 grams 1 milliliter of water is 1g. 100 of them is 100g plus a ten gram container is 110g
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.
100 cc of water is 100 ml.
The mass of sugar is 100 g.
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the 50 ml
water. a gram is one milliliter of water. a milliliter is a cubic centimeter. in degrees Celsius 0 is freezing for water and 100 is boiling. a calorie is the energy it takes heat a milliliter/gram/cubic centimeter of water by 1 degree. so on and so on it is all based on water.AnswerThe units gram, litre, Celsius, and centimetre are not SI units. They are cgsA units which predates the SI system. The SI system is based on the mksA system, which has the metre, kilogram, second, ampere, kelvin, candela, and mole as base units.No SI unit is 'based on water'.
water. a gram is one milliliter of water. a milliliter is a cubic centimeter. in degrees Celsius 0 is freezing for water and 100 is boiling. a calorie is the energy it takes heat a milliliter/gram/cubic centimeter of water by 1 degree. so on and so on it is all based on water.AnswerThe units gram, litre, Celsius, and centimetre are not SI units. They are cgsA units which predates the SI system. The SI system is based on the mksA system, which has the metre, kilogram, second, ampere, kelvin, candela, and mole as base units.No SI unit is 'based on water'.
about 70 percent of water covers the world
Any object that has a mass greater than 100 gram, will also have more inertia. By the way whether it is on Earth or not is irrelevant. If you take a 100-gram mass anywhere else, it will still have 100 gram; and the inertia (which depends on the mass) will also be the same.
If all the water boils off, the mass of the steam will be 100 grams. Matter cannot be created or destroyed.
All percentages are in mass% and all quantities are in grams (mass), be sure do not to take volumes into account because mass is 'additive', volumes are not quantitatively additable!Answer: Take whatever mass of 60 percent solution you have, multiply that mass by 20 (=60-40) and then divide that amount by 40, this is how much water to add to get an 40% solution.Example: Suppose you have 100 gram of 60% solution, then you should add:100 * (60-40)/40 = 100*0.50 = 50 gram of water; this is to be added to 100 gram of 60% solution to get (50 + 100 =) 150 gram of 40% solution.(see on top of the page to know why this calculation method is not valid for 'volumes')