Air inside the bottle expands when the bottle is heated. Some of it leaves the bottle until the pressure of the heated air remaining in the bottle equals the pressure of the air in the room. The balloon is then placed over the neck of the bottle and prevents any more air from entering or leaving the bottle. The air inside the bottle cools to the temperature of the ice water. The cooler air inside the bottle takes less space (volume) than it did when hot, so it sucks the balloon inside the neck of the bottle. Air pressure inside the bottle causes the balloon to stretch and enlarge until the air pressure inside the bottle, including the air in the balloon, has the same pressure as the air in the room.
When a bottle-and-balloon system is placed in hot water, the air inside the bottle expands due to an increase in temperature. Since the bottle is sealed off from the outside, the expanding air has nowhere to go, causing the balloon to inflate as a result of the increased pressure inside the bottle.
A hot water bottle is also known as a hot water bag or a warming bottle.
Because the melting point of the plastic used to make the bottle is lower than the temperature of the water that you have put in it. Plastic bottles are 'blow molded'. Basically air is forced inside a small piece of hot plastic and it expands like a balloon, except that this 'balloon' is inside a form or mold in the shape of the bottle. It is cooled and the bottle shape stays. If the softening point of the bottle is lower than the hot liquid poured in, then the plastic 'balloon' wants to shrink again.
In the first place the water in the bottle would keep the temperature of the plastic down preventing it from burning and leaking, The same as you would do by boiling water over a flame in a paper cup, However the water in the bottle would heat up and eventually the pressure inside the bottle would burst it like a balloon.
Hot water will provide more vapor in a bottle compared to cold water. This is because hot water evaporates more quickly due to increased energy in the water molecules, leading to more steam being produced.
when you but the bottle in hot water the balloon particles push apart and cause expansion
When a bottle of hot water is placed near a balloon stretched over the top, the air inside the balloon will expand due to the heat, causing the balloon to inflate. Conversely, if the hot water cools down, the air will contract and the balloon will deflate.
When the bottle is placed in hot water, the air inside expands due to the increased temperature. This causes the balloon to inflate as the air pressure inside the bottle increases.
When a bottle-and-balloon system is placed in hot water, the air inside the bottle expands due to an increase in temperature. Since the bottle is sealed off from the outside, the expanding air has nowhere to go, causing the balloon to inflate as a result of the increased pressure inside the bottle.
The hot water heats up the air inside the bottle, causing it to expand, forcing some of the air out of the bottle and into the balloon, causing it to inflate. The larger the bottle, the more air that will be pushed into the balloon. The air in the balloon will quickly cool and, since hot air is less dense and therefore rises, the cooler air is forced back into the bottle to be heated up. Eventually the air will be a constant temperature and the balloon will reach the limit of inflation. As the water cools, the air cools and the balloon begins to deflate.
When the bottle is placed in hot water, the air inside it expands due to the increase in temperature. This expanded air flows into the balloon, causing it to inflate. The molecules of gas inside the bottle have more kinetic energy when heated, leading to increased pressure and volume, pushing the air into the balloon.
jug of hot water, balloon, bottle
When the bottle is placed in hot water, the air inside the bottle will heat up and expand, creating an increase in pressure. This increased pressure will cause the balloon to inflate as the air molecules inside the bottle push against the stretched balloon. The energy transfers involve the transfer of heat energy from the hot water to the air inside the bottle, which then increases the kinetic energy of the air molecules, resulting in the inflation of the balloon.
The balloon will inflate as the air inside the bottle warms up and expands, creating higher pressure in the bottle. This pressure pushes against the balloon, causing it to stretch and inflate. The energy transfers involved include the heat energy transferred from the hot water to the air in the bottle, then to the balloon, and finally to the elastic potential energy stored in the stretched balloon.
This is described by Boyle's law which states that PV = nRT or in English, the product of pressure and volume is proportional to the temperature. Putting the bottle in hot water expands the gas in the bottle which inflates the balloon.
it sinks
Yes! If you heat a bottle with hot water, the balloon would grow bigger and bigger while if you put it under cold water, you would find out that the balloon became deflated again.