When the balloon is placed in the cold dry ice container, the air inside the balloon cools down, causing its temperature to decrease. As a result, the air molecules lose energy and move slower, leading to a decrease in pressure and volume inside the balloon, causing it to shrink.
The balloon would shrink in size as the air inside cools and contracts. This is because gases, like the air in the balloon, contract when they are cooled and expand when they are warmed.
As it gets colder the air molecules move closer together and the balloon deflates.
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.
the balloon's volume would decrease!!!
As temperature increases, the air molecules inside the balloon also heat up, causing them to move faster and exert more pressure on the walls of the balloon. This can cause the balloon to expand. Conversely, a decrease in temperature will cause the air molecules to slow down, resulting in a decrease in pressure and the balloon to shrink.
Putting an air-filled balloon in a refrigerator will cause it to shrink.
When a balloon filled with helium or CO2 is placed in the refrigerator, the gas inside the balloon will contract and become denser due to the lower temperature. This will cause the balloon to deflate slightly or shrink in size. Once the balloon is removed from the refrigerator and returns to room temperature, the gas will expand again and the balloon will regain its original size.
The low temperature inside the freezer causes the air inside the balloon to contract.
It would shrink (according to Charles's Law).
The balloon would shrink in size as the air inside cools and contracts. This is because gases, like the air in the balloon, contract when they are cooled and expand when they are warmed.
If the balloon is filled with water, and the water freezes, the balloon will expand and may burst. This is because at temperatures below 4ºC, water begins to expand and as it turns to ice, it has a larger volume than when it was liquid.
As it gets colder the air molecules move closer together and the balloon deflates.
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.
Balloons shrink in the freezer because the cold temperature causes the air inside the balloon to contract, decreasing its volume. This contraction reduces the pressure inside the balloon, leading to a decrease in size.
the balloon's volume would decrease!!!
As temperature increases, the air molecules inside the balloon also heat up, causing them to move faster and exert more pressure on the walls of the balloon. This can cause the balloon to expand. Conversely, a decrease in temperature will cause the air molecules to slow down, resulting in a decrease in pressure and the balloon to shrink.
Simple things are not always simple! Firstly, the air inside the balloon would expand, increasing the pressure, which would tend to make the balloon expand. However, latex tends to shrink as heated - its complex molecules change shape - which would tend to make it shrink! Which would win? Well, there's always one way to find out - try it! One benefit: If you blow one up really hard, you'll probably get it to burst first!