Gases are compressible so the actual volume is not possible to determine. Except if it is not compressed at all then it is 250ml.
There are approximately 25 empty 12-ounce aluminum cans that make up a pound.
Yes, a tank of oxygen gas can be considered half empty based on the volume of gas remaining in the tank relative to its maximum capacity. If the volume of gas in the tank is halfway between full and empty, it can be described as half empty.
No, aluminum soda cans will sink in water because aluminum is denser than water. The air trapped inside a closed soda can may cause it to briefly float, but it will eventually sink.
Yes, the majority of an atom's volume is indeed empty space. At the center of the atom is a dense nucleus containing protons and neutrons, while electrons orbit around the nucleus in distinct energy levels. The space between the nucleus and the electrons is where most of the atom's volume is found.
Mainly empty space, with a very small and dense nucleus at the center containing the majority of the atom's mass.
The addition of 5ml of sugar to 250ml of coffee should increase the total volume to 255ml, not remain at 250ml. Mixing two substances typically leads to an increase in total volume due to the added volume of the sugar.
The volume of an average adult's empty stomach is 1/5 of a cup.
There are approximately 25 empty 12-ounce aluminum cans that make up a pound.
An empty aluminum keg typically weighs around 15-20 pounds, depending on the size and style of the keg.
The empty weight of an aluminum coal car is approx 41900lbs.
Empty ones do. Full ones don't.
No because nothing is contained inside the box.
0oz
To determine the percentage of empty space in a square cleaning sponge, you would first calculate the total volume of the sponge. Then, measure the volume of the material in the sponge (not including empty space). Finally, divide the volume of empty space by the total volume and multiply by 100 to get the percentage of empty space.
Roughly 3,300 empty (obviously) 12 oz. aluminum cans.
about 32 pounds empty
The volume of air in a classroom would depend on the room's dimensions. To calculate the volume, you would multiply the length by the width by the height of the room. This calculation would give you the total volume of air in the empty classroom.