subtract 0.0011 from the density in vac to get density in air.
subtract 0.0011 from the density in vac to get density in air.
If you have air in a tight cylinder piston system, when you apply pressure you will see the volume of the air reduced. The amount of mass of air is the same, but now it occupies less volume, the molecules are closer together, its density has increased.
That depends on what fills the remainder of the bottle. If it is air, the average density of your bottle will be less than the density of the liquid.That depends on what fills the remainder of the bottle. If it is air, the average density of your bottle will be less than the density of the liquid.That depends on what fills the remainder of the bottle. If it is air, the average density of your bottle will be less than the density of the liquid.That depends on what fills the remainder of the bottle. If it is air, the average density of your bottle will be less than the density of the liquid.
subtract 0.0011 from the density in vac to get density in air.
you will start to float upwards in the atmosphere. The density of air decreases as you go higher in the atmosphere. You will stop going upwards when you reach a height where the air density is the same as your density.
It has the same density as air.
It has the same density as air.
The density of water is 1 g/cm3.The density of air is 0,001225 g/cm3.
No it decreases
It has the same density as air.
they would weigh the same everywhere
Yes, chlorine is denser than air at the same p and T Density ratio is the same as 'mol' mass ratio 71 to 28.8 (g/mol), so about 2.5 times 'heavier'.
They stay the same :)
Only in water. The air from your mouth is the same density as the air in the room- they will not float in air.
yes
yes