it isn't the sun that causes the balloon to shrink. its the pressure. the higher the altitude, the higher the pressure.
The low temperature inside the freezer causes the air inside the balloon to contract.
Balloons shrink in cold air because the air molecules inside the balloon lose energy and move closer together, resulting in a decrease in volume. This reduces the pressure inside the balloon, causing it to deflate or shrink.
When you leave a balloon in the sun, it pops. this is caused by the particles inside the balloon absorbing energy from the sun, speeding up, and spreading farther apart. When the particles move farther apart, the volume increases and causes the balloon to pop.
Yes, the Sun will eventually shrink. It is estimated to shrink in about 5 billion years from now so we would have moved on or evolved by that time anyway.
James Glaisher made his balloon with silk fabric coated in rubber to make it airtight. The balloon was filled with hydrogen gas for buoyancy.
Balloons can shrink due to loss of gas inside, typically helium or air, escaping through small holes or pores in the balloon material. Changes in temperature can also cause the gas inside the balloon to contract, reducing its volume and making the balloon appear to shrink.
A balloon with an aluminum coating takes longer to shrink because aluminum is a good insulator of heat, which slows down the transfer of heat from the surrounding air to the balloon. This insulation property helps retain the heat inside the balloon, making it take longer to cool down and shrink compared to a rubber balloon.
Because as the balloon is heated, the gases on the inside of the balloon begin to expand and press out on the walls of balloon. If a balloon is refridgerated, the opposite is true: the gases on the inside of the balloon will begin to contract, causing 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!
Yes, it does.
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 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.
Helium balloons can shrink over time due to the small helium atoms diffusing through the walls of the balloon, which are not completely impermeable. This leads to a gradual loss of helium from the balloon, causing it to deflate and shrink.
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.
by the bulletin board
When a balloon is pricked by a pin, the air inside the balloon will quickly escape, causing the balloon to deflate rapidly. The balloon will shrink in size and eventually become flat.
When a balloon is submerged in cold water, the air inside the balloon cools and contracts, leading to a decrease in volume. This causes the balloon to shrink in size.