it pops and goes every where dont
try it.
A balloon will contract when placed in the refrigerator because the cold temperature slows down the air particles inside the balloon, causing them to decrease in volume.
When you blow into a balloon, the particles of air you exhale are compressed and forced into the balloon. This increases the air pressure inside the balloon, causing it to expand and inflate.
When you fill a balloon with steam and put it in the refrigerator, the steam will condense back into water droplets, causing the balloon to shrink as the gas inside loses volume. The cooling of the gas molecules in the balloon will also decrease their kinetic energy, leading to a decrease in pressure inside the balloon.
As the speed of particles inside an air-filled balloon increases, the pressure inside the balloon also increases due to more frequent collisions with the walls of the balloon. This can cause the balloon to expand or even burst if the speed increases significantly.
The balloon undergoes a decrease in temperature, causing the air molecules inside it to lose energy and move closer together. This results in a decrease in pressure and volume, causing the balloon to shrink in size.
A balloon will contract when placed in the refrigerator because the cold temperature slows down the air particles inside the balloon, causing them to decrease in volume.
It will shock your hair
When you blow into a balloon, the particles of air you exhale are compressed and forced into the balloon. This increases the air pressure inside the balloon, causing it to expand and inflate.
it rises
When you leave a balloon in the freezer overnight, the air inside the balloon cools down and contracts, causing the balloon to shrink. The particles in the air inside the balloon lose kinetic energy and move more slowly, resulting in a decrease in pressure and volume inside the balloon.
When you fill a balloon with steam and put it in the refrigerator, the steam will condense back into water droplets, causing the balloon to shrink as the gas inside loses volume. The cooling of the gas molecules in the balloon will also decrease their kinetic energy, leading to a decrease in pressure inside the balloon.
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.
As the speed of particles inside an air-filled balloon increases, the pressure inside the balloon also increases due to more frequent collisions with the walls of the balloon. This can cause the balloon to expand or even burst if the speed increases significantly.
The speed of the particles inside the air-filled balloon increases as the temperature increases. This is because higher temperatures provide more thermal energy to the particles, causing them to move faster.
The balloon undergoes a decrease in temperature, causing the air molecules inside it to lose energy and move closer together. This results in a decrease in pressure and volume, causing the balloon to shrink in size.
The volume of air inside the balloon will decrease as the temperature drops in the refrigerator, causing the balloon to slightly shrink. When the balloon is taken out of the refrigerator and warms up, the air inside will expand again and the balloon will return to its original size.
A hot air balloon rises because the air inside the balloon is heated by a burner, making it less dense than the surrounding cooler air. This temperature difference creates buoyancy, causing the balloon to float upwards. As the air inside the balloon cools down, the particles lose energy and the balloon begins to descend.