This is a cool question. With all the talk about trillions of dollars, I have been thinking about this also. What volume of air in an equilateral cube, or other volume format.
1 atmosphere of pressure at room temperature. PV=nRT
There's a couple problems with this question:
There is no specific molecule for "air". It is a mixture of several different gases, the vast majority of which is Nitrogen (about 78%), along with Oxygen (about 21%), and several other trace elements.
Also, with any gas, the volume of space taken is equal to the volume of the container holding the gas. This means that any number of gas molecules can fill any amount of space.
However, since you're probably looking for a number instead of a cop-out science jargon answer, I'll just pretend we're working under STP: standard temperature (273 degrees Kelvin) and pressure (1 atmosphere).
Applying the ever-so-useful ideal gas equation, PV=nRT we calculate:
6.02x1023 molecules = 1 mole, therefore
1x1010 molecules = 1.66x10-14 moles
1 atm * x liters = 1.66x10-14 moles * 0.0821 * 273 K
x = 3.72x10-13 liters
Molecules take up less space as they cool. The space contains more molecules.
their molecules have very little attraction for one another. or for some other question Gases take up so much space because their molecules spread out to fill their space and like to be far apart from each other.
When a liquid or gas is heated, the molecules move faster, bump into each other, and spread apart. Because the molecules are spread apart, they take up more space. They are less dense. The opposite occurs when a liquid or gas is cooled.
Yes. To clarify: Solids : Take up a definite space and have defined shape Liquids : Take up a definite space but have no defined shape Gas : Have no defined space or shape.
blood is made up of blood cells and plasma. it has a density of approximately 1 (maybe a little more) so 1L of blood approx takes up as much space as 1L of water.
Molecules take up less space as they cool. The space contains more molecules.
A solid does take up space. Although it doesn't take up as much mass if it were to be a liquid or a gas.For example ice doesn't take up as much space as water or water vapor 123456789
Diffusion is the process by which molecules take up whatever space is available. Liquids and gases diffuse into other substances.
about 300,000 years since 120 trillion miles=approximately 20 light years
a trillion tons
their molecules have very little attraction for one another. or for some other question Gases take up so much space because their molecules spread out to fill their space and like to be far apart from each other.
Molecules of a gas, like molecules of any substance, take up a certain amount of space. So gas molecules can be measured by volume which is the distance (length, width, height) that the molecules occupy. How tightly they are packed together in a container is measured by pressure. Knowing both values will tell you how much of a gas is present.
18 carbon atoms
a trillion seconds
lots
In an ideal gas, molecules don't take up space, and don't have long-range interactions.
I have it right here in front of me. Unfortunately, in order to upload a googol digitsto the internet, even at the upload speed of 100 MB per second that I have here inmy house, would take 3.17 trillion trillion trillion trillion trillion trillion trillion years ...even after I finished typing them, and I have other work to do today.Notice that if you tried to download the number, it would take the same length of time,and you'd need a trillion trillion trillion trillion trillion trillion trillion Terabytes of availablehard-drive space to store it.Honest, I'd send it to you. But I was telling a little fib up above, where I said I have itright here in front of me. I don't. The truth is that so far, pi has only been calculatedto something like 6 trillion digits. A googol is something like 1.67 thousand trilliontrillion trillion trillion trillion trillion trillion times more than that. So you'll have to waita while, until the Japanese mathematicians and their supercomputers catch up withwhat you're asking for. Until then, save your pennies. It'll take them a serious-bigshipment for them to send it to you, even on DVDs.