No, the pressure of the balloon is more than the atmospheric pressure because the gasses in the balloon are compressed by the stretched material.
The pressure inside a balloon is typically slightly higher than atmospheric pressure due to the air or gas filling the balloon creating a force against the balloon walls. The pressure varies depending on factors such as the amount of air or gas inside the balloon and the elasticity of the balloon material.
When air is removed from a balloon, the pressure inside the balloon becomes lower than the atmospheric pressure outside. This causes the walls of the balloon to lose support from inside and collapse inward due to the higher atmospheric pressure pushing in from the outside.
The balloon exists in a separate pressure system from the bell jar itself.As the balloon is open to the surrounding air, the pressure within the balloon is 1 atm (1 atmospheric unit of pressure = 105 Pa).When pressure is decreased within the jar, the pressure within the jar decreases to a value lower than 1 atm. Therefore, to counter the low pressure created in the jar, the atmospheric air moves into the balloon and pushes the balloon into the jar to attempt to equalize the pressure in the balloon and in the jar. Therefore the balloon inflates.
The pressure inside the balloon is greater than the ambient atmosphere pressure because the air molecules inside the balloon are more concentrated due to being compressed when the balloon is inflated. The pressure difference causes the balloon to expand until the internal pressure matches the external pressure, at which point the balloon stops inflating.
The air inside a balloon is a mixture of gases, typically consisting of nitrogen, oxygen, carbon dioxide, and trace amounts of other gases. When the balloon is inflated, the pressure of the air inside the balloon is higher than the atmospheric pressure outside, causing the balloon to expand and float.
Think about this: if the pressure WERE equal, what would happen in the instant when you open the neck of the balloon and whatever pressure is on the inside meets the pressure that is on the outside (atmospheric pressure)? In your experience, what DOES happen?
Low pressure
The pressure inside a balloon is typically slightly higher than atmospheric pressure due to the air or gas filling the balloon creating a force against the balloon walls. The pressure varies depending on factors such as the amount of air or gas inside the balloon and the elasticity of the balloon material.
When air is removed from a balloon, the pressure inside the balloon becomes lower than the atmospheric pressure outside. This causes the walls of the balloon to lose support from inside and collapse inward due to the higher atmospheric pressure pushing in from the outside.
Less.
Helium expands in the heat, causing the gas inside the balloon to increase in pressure. As the pressure inside the balloon becomes greater than the strength of the balloon's material, it can pop. The pressure acting on the balloon is the sum of the internal pressure of the expanding helium gas and the external atmospheric pressure.
Lowered Pressure
less than the atmospheric pressure
The pressure of the air inside it. The higher the balloon rises, the lower the outside air-pressure. With less pressure outside, the balloon expands because of the pressure of the air inside it. Eventually, the balloon bursts, and scientists recover the instruments when they fall to earth.
The balloon exists in a separate pressure system from the bell jar itself.As the balloon is open to the surrounding air, the pressure within the balloon is 1 atm (1 atmospheric unit of pressure = 105 Pa).When pressure is decreased within the jar, the pressure within the jar decreases to a value lower than 1 atm. Therefore, to counter the low pressure created in the jar, the atmospheric air moves into the balloon and pushes the balloon into the jar to attempt to equalize the pressure in the balloon and in the jar. Therefore the balloon inflates.
The pressure inside the balloon is greater than the ambient atmosphere pressure because the air molecules inside the balloon are more concentrated due to being compressed when the balloon is inflated. The pressure difference causes the balloon to expand until the internal pressure matches the external pressure, at which point the balloon stops inflating.
It is caused from unequal heating among the atmosphere. So in an area if it is heated then then the air will be less cool and denser. It is caused from unequal heating among the atmosphere. So in an area if it is heated then then the air will be less cool and denser.