The pressure inside is greater than outside, or else the balloon would not blown up.
Air escapes from balloons when there is a hole or tear in the balloon material, allowing the pressurized air inside to quickly rush out. The escaping air creates a stream of airflow that pushes the balloon in the opposite direction, causing it to deflate.
When you stick a pin in a balloon, it creates a small hole that allows the air inside to escape rapidly. The pressure inside the balloon is greater than the pressure outside, causing the air to rush out and the balloon to deflate quickly.
If a balloon is punctured with a hole, the air inside the balloon will escape, causing the balloon to gradually deflate and become smaller in size until there is no more air left.
A balloon is stretchy. Therefore, when air is not being forced in, the ballon will try to contract to more or less of it's original size. When this happens, the air is forced out of a balloon until the molecular structure of the balloon is simillar to how it started out.
When you prick a balloon, the air inside the balloon will quickly escape through the hole created by the prick. This rapid release of air causes the balloon to pop or deflate depending on the size of the hole and the force of the air escaping.
Air escapes from balloons when there is a hole or tear in the balloon material, allowing the pressurized air inside to quickly rush out. The escaping air creates a stream of airflow that pushes the balloon in the opposite direction, causing it to deflate.
When you stick a pin in a balloon, it creates a small hole that allows the air inside to escape rapidly. The pressure inside the balloon is greater than the pressure outside, causing the air to rush out and the balloon to deflate quickly.
If a balloon is punctured with a hole, the air inside the balloon will escape, causing the balloon to gradually deflate and become smaller in size until there is no more air left.
A balloon is stretchy. Therefore, when air is not being forced in, the ballon will try to contract to more or less of it's original size. When this happens, the air is forced out of a balloon until the molecular structure of the balloon is simillar to how it started out.
When you prick a balloon, the air inside the balloon will quickly escape through the hole created by the prick. This rapid release of air causes the balloon to pop or deflate depending on the size of the hole and the force of the air escaping.
Air cannot go through a normal balloon because the rubber material is impermeable. However, if the balloon has a hole or is porous, air can leak out.
If a hole forms in a hot air balloon, the hot air inside the balloon will escape, causing the balloon to lose altitude. The pilot will need to release more heated air or descend to land safely. Regular inspections and maintenance help prevent holes in hot air balloons.
When a balloon is poked with a pin, the sharp object creates a hole in the balloon's surface. As a result, the air inside the balloon rapidly escapes through the hole, causing the balloon to deflate quickly.
If you had a hole in your hot air balloon you would not be able to fly it. it just would not float. It wouldn't float because when people are ready to fly it they power up the balloon they light fire in it. So if you have a hole in your hot air balloon the fire lighting inside of it would just go through the hole. You would have to buy another one. Sincerely, Einstein.
To perform the magic balloon trick where you put something in the balloon from the bottom, you will first need a small hole in the bottom of the balloon. Then, you can carefully slide the item into the balloon through the hole without letting any air escape. Finally, seal the hole with glue or tape to prevent air leakage.
When the air rushes out of the balloon, it releases heat energy, which results in a decrease in enthalpy within the balloon. This process is known as an exothermic reaction, where energy is released to the surroundings.
When an air-filled balloon is left with its mouth downward and the air is allowed to escape, the balloon will collapse and shrink in size. This is because the air pressure inside the balloon is greater than the atmospheric pressure outside, causing the air to rush out until the pressures equalize.