as the altitude increase, the effect of gravity become more insignificant on air and the air become more disperse or thinner hence it does affect the air pressure and density by decreasing both air pressure and density of the air.
Since the volume of a container is generally understood to be the capacity of the container, i. e. the amount of fluid (gas or liquid) that the container could hold, rather than the amount of space the container itself displaces.If the volume were measured by displacement of such water, there would be no effect on the density of the solid. But the measurement would be inaccurate, leading to a misrepresentation of the actual density. Density = (mass)/(volume) Assume that the mass had been accurately measured by other means, and the volume then measured by displacement of water that included air bubbles. During the overflow procedure, the air would escape, and only the H2O component of the displaced fluid would be available for measurement. Hence, the volume of the solid would be under-reported. Since (volume) is the denominator of the fraction, the apparently smaller volume would cause the quantity (mass)/(volume) to become artificially large, and the density of the solid would appear larger than its actual density. --relxerd
if it is high the density is high so if the temperature is low the density is low.
As the air bubble increases in volume, its mass remains constant. Because the mass remains constant but volume increases, density will decrease.
It will increase the total volume, but it will hardly affect total mass. Remember the definition of density as mass / volume.
they dont
The air bubbles lower the density of the solution
Altitude has a large affect on the air pressure and air density. Air density reduces with altitude and air pressure reduces with altitude as well.
Pressure affects the density of air by increase of pressure increases the density
thank you
as the altitude increase, the effect of gravity become more insignificant on air and the air become more disperse or thinner hence it does affect the air pressure and density by decreasing both air pressure and density of the air.
Since the volume of a container is generally understood to be the capacity of the container, i. e. the amount of fluid (gas or liquid) that the container could hold, rather than the amount of space the container itself displaces.If the volume were measured by displacement of such water, there would be no effect on the density of the solid. But the measurement would be inaccurate, leading to a misrepresentation of the actual density. Density = (mass)/(volume) Assume that the mass had been accurately measured by other means, and the volume then measured by displacement of water that included air bubbles. During the overflow procedure, the air would escape, and only the H2O component of the displaced fluid would be available for measurement. Hence, the volume of the solid would be under-reported. Since (volume) is the denominator of the fraction, the apparently smaller volume would cause the quantity (mass)/(volume) to become artificially large, and the density of the solid would appear larger than its actual density. --relxerd
Air bubbles would make the volume you read in the measuring cylinder increase from the actual volume of theliquid. so when you add in the metal, there would be an increase in the volume of the metal than it really is. the mass of the metal cannot be affected by air bubble because this is the amount of matter in the metal. This increase in volume causes the density of the metal to reduce from its original value. since mass is constant, density is inversely proportional to volume. As volume increases, density decreases.hope that was helpful.
bum hole
Air pressure affects buuble ,by... pushing through all the sides.This can affect the buuble. I wish there were a way to stop that!
Air pressure decreases as altitude increases. As air pressure decreases, so does density.
if it is high the density is high so if the temperature is low the density is low.