34.9 kg, approx.
To determine how many dimes it would take to fill a 16.9 fl oz water bottle, we first need to calculate the volume of a dime. A dime has a diameter of 0.705 inches and a thickness of 0.053 inches, resulting in a volume of approximately 0.020 cubic inches. Next, we convert the volume of the water bottle to cubic inches, which is approximately 28.98 cubic inches. Dividing the volume of the water bottle by the volume of a dime gives us approximately 1449 dimes needed to fill the 16.9 fl oz water bottle.
12
The density of mercury is 13.534 grams per milliliter.0.190 liter = 190 millilitersSo a full container's worth of mercury would comprise (13.534) x (190) =2,571.46 grams = 2.57146 kilograms of mass.
It really depends on the size of the bath tub. Yours and mine may differ by a lot.
It can vary depending on the size of the drops, but typically it would take around 20-25 drops of water to fill a small graduated cylinder to the 1 milliliter mark.
1500
A gram of what? A gram of air at 100,000 ft. would fill billions of milliliters. A gram of the matter in the center of a superdense star would fill a tiny fraction of a milliliter (practically zero). A gram of pure water at 20 degrees C temperature and 1 atmosphere pressure will fill exactly 1 milliliter.
1500
Yes, it would take 1,000 milliliters to fill up a liter.
The milli- metric prefix means one thousandth, so 1 milliliter = 1/1000 liter ⇒ 1000 milliliter = 1 liter Thus you need 1000 milliliters of water to fill a one liter glass jar.
1 cubic centimeter = 1 cubic milliliter so it would take 50.0 cm to get 50.0 mL :)
Well there's 10 millimeters to 1 cm, so if you measure the height of the water line I would say it takes 120 millimeters of water to fill a 12 cm box. If, however , you want to know the content, you would need to give the width and depth of the box as well....
I'll submit this [below] for an answer but I am not positive it's the correct answer they were looking for. :-) A: Fill the 40 ml cup half full of water. Half of 40 ml is 20 ml.
no, it will take one liter of water in standard conditions to do so
34.9 kg, approx.
A mole of water molecules would just about fill a teaspoon.