At a colder temperature, the gas takes up less volume. Other things (especially pressure) being equal, the volume of an ideal gas is directly proportional to the absolute temperature (the temperature in Kelvin). A real gas will have a behavior similar to an ideal gas, under normal circumstances.
The balloon got bigger when taken outside because the air inside the balloon expanded due to the warmer temperature outside. It was hotter outside than in Jonas's room.
The volume of the balloon will decrease when taken outside on a cold winter day. This is because the cold temperature causes the air inside the balloon to contract, making it occupy less space.
Balloons can pop when taken outside because the change in temperature can cause the air inside the balloon to expand rapidly, putting pressure on the balloon until it bursts. Additionally, exposure to sunlight can weaken the material of the balloon, making it more prone to popping.
The cold temperature outside would cause the air inside the balloon to contract and decrease in volume, leading to the balloon deflating. The rubber material of the balloon may also become more brittle in the cold, which could make it more prone to popping or breaking.
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The balloon got bigger when taken outside because the air inside the balloon expanded due to the warmer temperature outside. It was hotter outside than in Jonas's room.
The volume of the balloon will decrease when taken outside on a cold winter day. This is because the cold temperature causes the air inside the balloon to contract, making it occupy less space.
Balloons can pop when taken outside because the change in temperature can cause the air inside the balloon to expand rapidly, putting pressure on the balloon until it bursts. Additionally, exposure to sunlight can weaken the material of the balloon, making it more prone to popping.
As we know, Charles's Law states that for a fixed amount of gas at a constant pressure, the volume of the gas changes in the same way that the temperature of the gas changes. So, if a balloon is taken outside on a cold winter day, which means in a low temperature, the volume will also decrease due to the lower temperature.
The cold temperature outside would cause the air inside the balloon to contract and decrease in volume, leading to the balloon deflating. The rubber material of the balloon may also become more brittle in the cold, which could make it more prone to popping or breaking.
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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.
The cold temperature causes the air inside the balloon to decrease in pressure and volume, leading to it shrinking. This is due to the gas particles inside the balloon losing kinetic energy and moving closer together in response to the lower temperature.
The symbol was taken from the first two letters of the element, Helium
The temperature of the air inside the balloon will decrease, causing the volume of the air to decrease as well. This is because the air molecules move more slowly in the cold, creating less pressure inside the balloon.
Helium is a gas and will take the shape of the container it is taken
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