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.
subtract 0.0011 from the density in vac to get density in air.
In glass, light will go somewhat slower than in a vacuum. Air is almost like a vacuum, with respect to the speed of light - some difference still exists, though.In glass, light will go somewhat slower than in a vacuum. Air is almost like a vacuum, with respect to the speed of light - some difference still exists, though.In glass, light will go somewhat slower than in a vacuum. Air is almost like a vacuum, with respect to the speed of light - some difference still exists, though.In glass, light will go somewhat slower than in a vacuum. Air is almost like a vacuum, with respect to the speed of light - some difference still exists, though.
This is due to the difference in optical density.
Vacuum refers to a volume of space that is essentially empty of matter,such that is gaseous pressure is much less than atmospheric pressure. while AIR is the mixture of oxygen, nitrogen,and other gases that are consistently present around us.
subtract 0.0011 from the density in vac to get density in air.
The density between cold and warm air is, cold air is heavier than warm air.
subtract 0.0011 from the density in vac to get density in air.
High pressure. A hot air balloon has a maximum altitude, where it has only just enough lift to keep it there, because there is very little difference in density between hot (near) vacuum and cold (near) vacuum.
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Similarities' Both are matter. Differences: Density
In vacuum, neither mass nor density will make any difference. Otherwise, air resistance becomes relevant and objects with lower density fall lower.
Get all the air out of it, and weight it. This is the true weight of just the vacuum chamber.
In a vacuum, they always land at the same time. In air, it's not so much the weight but the air resistance. If the shape and density are about the same, then the difference in weight doesn't make any difference.
Pretty much the way it responds in air. There is little difference between the ability of the magnetic lines of force to "penetrate" and "travel through" air as a vacuum. The "field strength" and "field pattern" will be virtually identical.
Yes, but it is only a slight difference.
In glass, light will go somewhat slower than in a vacuum. Air is almost like a vacuum, with respect to the speed of light - some difference still exists, though.In glass, light will go somewhat slower than in a vacuum. Air is almost like a vacuum, with respect to the speed of light - some difference still exists, though.In glass, light will go somewhat slower than in a vacuum. Air is almost like a vacuum, with respect to the speed of light - some difference still exists, though.In glass, light will go somewhat slower than in a vacuum. Air is almost like a vacuum, with respect to the speed of light - some difference still exists, though.