Changes in air pressure
The cold temperature in the freezer will cause the air molecules inside the balloon to contract, making the balloon shrink in size. If the balloon gets cold enough, the rubber may become brittle and more prone to popping.
When you put an inflated balloon in a warm room, the air molecules inside the balloon gain kinetic energy and move faster, causing them to exert more pressure on the balloon walls. This increased pressure may cause the balloon to expand slightly as it absorbs some of the heat energy from the room.
I will probably be over-inflated and pop. But, a substance like diharroea will drop on the person who did the experiment's bottom and cause it to swell.
The cold temperature outside would cause the air inside the balloon to contract and decrease in volume, leading to the balloon deflating. The rubber material of the balloon may also become more brittle in the cold, which could make it more prone to popping or breaking.
The air molecules would expand, increasing the pressure of the balloon. When anything gets cold, it contracts, and when heated, it expands. Atoms and molecules are always moving - when something is hot, the molecules are moving faster and greater distances. When something is cold, the molecules are still moving, just slowly and at much smaller distances. You won't see much a difference while it's partially inflated, though there would be one. You can see results more drastically by heating a balloon that is near completely inflated. The more air molecules that are in the balloon, the greater the expansion. In other words, the bigger the balloon and more air that's in it, when heated you will see a larger change in the balloon size.
Inflated party balloons are typically made of thin materials that can expand and contract with temperature changes. When placed over a heater, the air inside the balloon heats up and expands, putting pressure on the walls of the balloon. If the pressure becomes too great, it can cause the balloon to burst.
If you took an inflated balloon to the top of a mountain, the air pressure surrounding the balloon would decrease as you ascend. This would cause the air inside the balloon to expand, potentially leading to the balloon bursting if the pressure differential is too great. Additionally, the lower air pressure at higher altitudes would cause the balloon to appear larger than it would at sea level due to the decreased external pressure pushing against it.
The hypothesis of balloon blow up is that blowing air into a balloon will cause it to inflate because the pressure from the air forces the balloon material to expand. This hypothesis can be tested by conducting an experiment where balloons are inflated with varying amounts of air to observe the effects on size and firmness.
The acetic acid in vinegar reacts with the baking soda (sodium bicarbonate, a base) to form carbonic acid and sodium acetate. The gas, or carbon dioxide is what makes the balloon inflate. Adding more vinegar will add more reactants going into the reaction, so more gas will be produced and cause the balloon to become more inflated.
As the inflated balloon segment of the Foley catheter is against the bladder, over inflation may cause constriction of other organs, discomfort or may break internally. If the balloon does rupture it must immediately be removed as well as all pieces of the balloon or risk infection.
When the temperature is colder the particles in the balloon travel slower, making the balloon not able to increase in size it decreases.When the temperature is hot it allows the balloon to expand because the particles in the balloon are moving rapidly. in conclusion the the cold makes the balloon decrease in size and the heat allows it to expand.
When a charged balloon is allowed to touch a neutral balloon, some of the charge from the charged balloon will transfer to the neutral balloon. This transfer of charge will cause both balloons to become slightly charged.