Yes. When you squeeze the balloon, you cause the volume to decrease. Since density is determined by dividing mass by volume, a decrease in volume will cause an increase in denisty.
The force of the pressure put on the balloon is squeezed into smaller particles so the volume is smaller. :) From Jade Nicole White. X
The pressure inside the balloon will be higher because the balloon will try to get smaller and thus the balloon will ascent due to the low density of the helium inside the balloon.
Density = mass / volume. So, to get a greater density, you'll either need to have a greater mass, or a smaller volume - or a combination of the two.
You could do this by applying pressure to the balloon, you'll notice that as it get's smaller from getting squeezed it becomes harder to compress, because of the higher pressure.
Small Balloon because it is smaller the heat is compacted and closer so the smaller balloon has more heat.
The force of the pressure put on the balloon is squeezed into smaller particles so the volume is smaller. :) From Jade Nicole White. X
due to pressure inside the balloon, will be higher because the balloon will try to get smaller and thus the balloon will ascent due to the low density of the helium inside the balloon.
No. Since blueberries are smaller sizes, they can't possibly have a greater density than a strawberry.
The pressure inside the balloon will be higher because the balloon will try to get smaller and thus the balloon will ascent due to the low density of the helium inside the balloon.
Density = mass / volume. So, to get a greater density, you'll either need to have a greater mass, or a smaller volume - or a combination of the two.
Density = Mass/Volume, whatever the shape. So, if the masses are the same, the density is greater when the volume id smaller. Thus the sphere, with the smaller volume has the greater density.
No.
You could do this by applying pressure to the balloon, you'll notice that as it get's smaller from getting squeezed it becomes harder to compress, because of the higher pressure.
You could do this by applying pressure to the balloon, you'll notice that as it get's smaller from getting squeezed it becomes harder to compress, because of the higher pressure.
No. The volume of the helium will change as it expands the balloon due to the increase in temperature. The density of an element never changes. The reason for that is because density is just a fancy way of saying 'The atoms are this far apart' in the equation mass/volume = density.
When a population increases, there is greater potential for influences such as disease to have a greater impact on the population. The total numbers of people affected will be greater than in a smaller population.
Small Balloon because it is smaller the heat is compacted and closer so the smaller balloon has more heat.