A full balloon is difficult to compress because the air inside it creates pressure that pushes back against any attempts to squeeze or compress the balloon. The air molecules are in constant motion and collide with the inside walls of the balloon, creating tension that resists compression.
Yes, water can be compressed under extreme pressure, but it is difficult to compress compared to other substances.
A full balloon contains more gas than an empty balloon (even an empty balloon contains a little air). Therefore a full balloon is heavier than an empty balloon (assuming the balloons are the same weight to begin with). However, if filled with a lighter-than-air gas, such as helium, the full balloon will defy gravity due to its increased buoyancy. The only other difference is that the skin of a full balloon will be stretched and will therefore be much thinner than the skin of an empty balloon. This stretching increases the pressure upon the gas contained therein, therefore the gas is compressed inside the balloon.
The air in the balloon will have a difficult time expanding to fill the bottle because the bottle is already filled with air at atmospheric pressure, which creates resistance. The pressure inside the balloon needs to overcome the pressure inside the bottle in order for the balloon to expand and fill the bottle.
Yes, a balloon full of air will weigh more than an empty balloon because the air inside adds mass to the overall weight.
Yes, bricks are difficult to compress due to their high density and strength, typically made from clay or concrete. The compact nature of the material makes it resistant to compression forces.
Water is a substance that flows easily but is difficult to compress due to its strong intermolecular forces and hydrogen bonding.
Angioplasty or balloon angioplasty is the medical term meaning passage of a balloon catheter through the lumen of an occluded coronary vessel to compress plaque against the arterial walls.
Yes, water can be compressed under extreme pressure, but it is difficult to compress compared to other substances.
Yes, as long as it is still a gas.
A full balloon contains more gas than an empty balloon (even an empty balloon contains a little air). Therefore a full balloon is heavier than an empty balloon (assuming the balloons are the same weight to begin with). However, if filled with a lighter-than-air gas, such as helium, the full balloon will defy gravity due to its increased buoyancy. The only other difference is that the skin of a full balloon will be stretched and will therefore be much thinner than the skin of an empty balloon. This stretching increases the pressure upon the gas contained therein, therefore the gas is compressed inside the balloon.
The air in the balloon will have a difficult time expanding to fill the bottle because the bottle is already filled with air at atmospheric pressure, which creates resistance. The pressure inside the balloon needs to overcome the pressure inside the bottle in order for the balloon to expand and fill the bottle.
Yes, a balloon full of air will weigh more than an empty balloon because the air inside adds mass to the overall weight.
No. You can compress a gas because the particles are NOT close together. If they are close together (as in a solid) it is extremely difficult to compress any further.
Solids and liquids are difficult compress. Gases, however, are easy; they respond to changes in temperature and volume.
Yes, bricks are difficult to compress due to their high density and strength, typically made from clay or concrete. The compact nature of the material makes it resistant to compression forces.
The balloon undergoes a decrease in temperature, causing the air molecules inside it to lose energy and move closer together. This results in a decrease in pressure and volume, causing the balloon to shrink in size.
Materials that are rigid and lack flexibility, such as solid objects like rocks or metals, are difficult to compress or force into a smaller space. Additionally, substances that are tightly packed, like dense gases or liquids, can also be challenging to compress.