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As the air bubble increases in volume, its mass remains constant. Because the mass remains constant but volume increases, density will decrease.
It increases. The volume of a material decreases in contraction, while the mass remains the same.
No. Density is the mass per unit volume ( ie per cubic foot, cubic cm etc). So the bigger the mass, the density remains unchanged.
The acceleration increases in the direction of the force.
it will increase. the epuation for density is mass divided by volume.
If volume increases while mass remains the same, the density will decrease.
As the air bubble increases in volume, its mass remains constant. Because the mass remains constant but volume increases, density will decrease.
It depends on whether the height remains unchanged or increases in the same proportion as the radius.
It would evaporate the water, form salts, then evaporate completely
Density is an intensive quantity which means it is independent of size. This can be seen from the definition of density. Density = mass/volume So if the sample size increases than so does the mass, but the density remains unchanged.
Volume = Mass/Density. In a larger container the mass of the gas remains unchanged, the density decreases so the volume increases.
The amount of mass does not change. The energy contained by the fixed mass increases.
It increases. The volume of a material decreases in contraction, while the mass remains the same.
If the volume remains the same, the density will increase in direct proportion to the increase in mass.
it remains unchanged
It remains intact, unchanged and in uninterrupted use.
The density increases as the mass of the solution increases but its volume remains the same.