You can have the candle flame actually touch the balloon, and the balloon won't break!
The water in the balloon is absorbing the heat from the candle. The balloon conducts heat very well, so the candle flame transfers to the water without harming the balloon.
the heat makes the molecules inside the balloon travel faster, pushing outward on the balloon. This, the balloon expands when heated
When a balloon is heated, the air inside it expands and exerts pressure on the walls of the balloon. If the pressure becomes too high, it can exceed the strength of the balloon material, causing it to burst or explode.
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.
When a balloon is heated, the air molecules inside the balloon gain kinetic energy and move faster, causing the air to expand. As a result, the balloon inflates and may eventually burst if it cannot contain the increased pressure from the expanding air molecules.
When the air inside a balloon is heated, the molecules in the air gain kinetic energy and move faster, causing the air inside the balloon to expand. This expansion increases the pressure inside the balloon, making it inflate and potentially burst if the pressure becomes too high.
the heat makes the molecules inside the balloon travel faster, pushing outward on the balloon. This, the balloon expands when heated
When a balloon is heated, the air inside it expands and exerts pressure on the walls of the balloon. If the pressure becomes too high, it can exceed the strength of the balloon material, causing it to burst or explode.
When a balloon is heated, the molecules inside gain kinetic energy and move faster. This causes the molecules to push against the walls of the balloon more vigorously, increasing the pressure inside the balloon. If the balloon is heated too much, it can expand or even burst due to the increased pressure.
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.
burst/ burst /burst. Don't burst the balloon. He burst the balloon yesterday. He has burst the balloon already.
When a balloon is heated, the air molecules inside the balloon gain kinetic energy and move faster, causing the air to expand. As a result, the balloon inflates and may eventually burst if it cannot contain the increased pressure from the expanding air molecules.
When the air inside a balloon is heated, the molecules in the air gain kinetic energy and move faster, causing the air inside the balloon to expand. This expansion increases the pressure inside the balloon, making it inflate and potentially burst if the pressure becomes too high.
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.
When a balloon is warmed up, the air inside it expands, causing the balloon to inflate. This is because the molecules in the air move more quickly and spread out when heated, creating more pressure inside the balloon. If the balloon gets too hot, it may burst due to the increased pressure.
The cooler air inside the balloon would increase in temperature, causing it to expand and potentially burst the balloon. This is because gases expand when heated.
if we keep a pumpkin inside a balloon the balloon will not fly and will burst
Heating a balloon can cause it to expand due to the increase in temperature. If the balloon is not made of flame-resistant material, it is likely to burst when exposed to the flame due to the buildup of pressure from the expanding air inside. This experiment can be dangerous and may result in the balloon popping and potential injury, so caution should be exercised.