It pops
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 a balloon bursts, the pressure inside the balloon is suddenly released, causing the rubber to tear apart. The air inside the balloon escapes rapidly, creating a loud popping sound and possibly scattering rubber remnants.
It decreases.
When you leave a balloon in the freezer, the air inside it will cool and contract, causing the balloon to shrink in size. This happens because the volume of gases decreases when they are cooled, causing the balloon to deflate.
When you release a balloon with air in it, the air inside the balloon is pushed out, causing the balloon to fly through the air. This happens because the air being forced out creates a force in the opposite direction, propelling the balloon forward.
As the balloon ascends into the atmosphere, the air pressure surrounding it decreases, causing the gas inside the balloon to expand. Eventually, the gas inside the balloon will expand so much that the balloon will burst or pop. Pieces of the balloon will then fall back down to the ground.
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.
It decreases
If it's a light balloon, it keeps going up, into thinner and thinner atmosphere, until the pressure inside the balloon is so much greater that the pressure outsize , and then it pops.
The balloon pops and the water falls out and splashes onto the floor.
After weather balloons are released into the atmosphere, they ascend to high altitudes, collecting data on temperature, humidity, and pressure. Eventually, the balloons burst due to low air pressure, and a parachute deploys to slow their descent. The instruments attached to the balloon are then retrieved for analysis of the gathered data.
With helium filled balloons, they rise upwards as the gas inside is of a lower density than the atmosphere around them. The balloon will continue to rise and the gas inside it will expand as the atmospheric pressure decreases with increasing altitude. Eventually, the gas inside the balloon will expand enough to burst the balloon and the balloon will fall back to the ground. When and where this happens depends on weather conditions, air temperature, the rubber used in the balloon, etc.
At the end of its flight, a weather balloon typically bursts due to the decreasing air pressure as it rises higher into the atmosphere. The instruments attached to the balloon then parachute back to the ground, where they are retrieved for data analysis.
It gets released into the Atmosphere.
It gets released into the Atmosphere.
The balloon will expand as the air pressure decreases at higher altitudes. This is because the internal pressure of the balloon becomes greater than the external pressure. If the balloon is not released or deflated, it may pop.
When a balloon bursts, the pressure inside the balloon is suddenly released, causing the rubber to tear apart. The air inside the balloon escapes rapidly, creating a loud popping sound and possibly scattering rubber remnants.