Heating up a balloon will cause the air inside it to expand, which will increase the pressure inside the balloon. If the pressure exceeds the balloon's strength, it will pop or burst.
A balloon gets heated up by the sun or another external heat source that warms the air inside the balloon. The heated air inside the balloon becomes less dense than the surrounding air, causing the balloon to rise.
When a balloon is heated, the air molecules inside the balloon gain kinetic energy and move faster, causing them to spread out and take up more space. This increase in volume leads to the balloon expanding.
When the air inside a balloon cools, it will also contract, therefore the balloon will partially deflate.
The balloon would expand and potentially burst if it's exposed to the rapid change in temperature from the fridge to the oven. The air molecules inside the balloon would heat up and increase in pressure, causing the balloon to inflate and possibly rupture.
When you heat up a balloon, the air molecules inside the balloon gain energy and move faster, causing the air pressure to increase. This increased pressure stretches the walls of the balloon, making it expand. If the balloon is heated too much, it can burst due to the increased pressure.
A balloon gets heated up by the sun or another external heat source that warms the air inside the balloon. The heated air inside the balloon becomes less dense than the surrounding air, causing the balloon to rise.
When in the sun the balloon gets slightly bigger, when in the refrigerator the balloon shrinks.
The balloon would get larger as the air pressure outside it dropped. At some height, the balloon would get large enough to burst.
It would probably fill up with water, and then you'd have a water balloon.
When the air inside a balloon cools, it will also contract, therefore the balloon will partially deflate.
It would expand as the gases inside expand against the pressure of the skin of the balloon and the atmospheric pressure.
When a balloon is heated, the air molecules inside the balloon gain kinetic energy and move faster, causing them to spread out and take up more space. This increase in volume leads to the balloon expanding.
because the density in the balloon is heated so it rises higher than it being unheated
When the air inside a balloon cools, it will also contract, therefore the balloon will partially deflate.
Water is very good at soaking up heat. When the water-filled balloon is heated the water Draws the heat away from the rubber. For the air filled balloon, not so much. The rubber heats up, weakens, and breaks.
The balloon would expand and potentially burst if it's exposed to the rapid change in temperature from the fridge to the oven. The air molecules inside the balloon would heat up and increase in pressure, causing the balloon to inflate and possibly rupture.
The air alone is not able to blow up a balloon. When air in the bottle is heated with a balloon on top of it, the air expands due to the heat and moves and finds more space. This in turn will blow up the balloon.