It becomes slightly deflated because the air inside it contracts on cooling.
The volume of the balloon decreases
It decreases. The colder air contracts, making the balloon shrink.
decreases. This is because the cold air causes the air molecules inside the balloon to move slower, reducing their kinetic energy and causing the balloon to shrink.
It gets Cold :D
When an inflated balloon is exposed to cold air, provided pressure is constant, the volume will decrease. Bring the balloon back to a warmer spot, and the gas gains kinetic energy from the warm air, and the balloon will plump back up.
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.
Yes, a balloon can pop when exposed to cold water. The decrease in temperature causes the air inside the balloon to contract, creating more pressure on the balloon walls which can lead to it bursting.
The balloon will shrink when it goes outside. How much it shrinks will depend on the temperature difference. As temperature decreases the gas(ses) in the balloon decrease in volume causing the balloon to shrink.
When a balloon is placed in the freezer, the air inside it contracts and decreases in volume due to the cold temperatures. The rubber of the balloon becomes less flexible in the cold, making it so the balloon can't stretch to accommodate the reduced air volume inside. This increase in pressure causes the balloon to burst.
When a balloon is exposed to cold temperatures, the air molecules inside lose kinetic energy and move more slowly, causing the volume of the air inside the balloon to decrease. This decrease in volume leads to a decrease in pressure inside the balloon, causing it to deflate.
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.
The temperature of the air inside the balloon will decrease, causing the volume of the air to decrease as well. This is because the air molecules move more slowly in the cold, creating less pressure inside the balloon.