There are many factors to consider, so there are many answers. First, if the balloon is soaring in the sky, then it is moving and it therefore has both kinetic and potential energy since it has a speed and a height from the ground. Second, if the balloon is attached to the ground, it only has potential energy since it is not moving. Third, if the balloon is standing still on the ground, it has neither kinetic nor potential energy.
Hot ice, also known as sodium acetate, can be used to blow up a balloon by creating a chemical reaction that produces carbon dioxide gas. Cold ice, on the other hand, will not blow up a balloon as it does not release any gas.
The carbon dioxide gas in carbonation creates pressure inside the balloon, causing it to blow up. When the bottle of carbonated beverage is opened, the carbon dioxide gas rushes out and fills the balloon due to the pressure difference.
Neither Dr. Pepper nor Sprite will blow up a balloon the biggest. The size of the balloon mainly depends on the release of carbon dioxide gas from the beverage, so it would be best to use a carbonated drink with a high carbonation level to blow up the balloon the biggest.
Imagine inhaling to blow in a balloon. You will take in air, hold it in your mouth and blow it into the balloon. Some of it will be the carbon dioxide you were exhaling but most of it will be the air you just breathed in. So, the gas inside the balloon will be a mixture, that is, air.
The purpose of blowing up a balloon with a lemon is to demonstrate an alternative method of creating a chemical reaction that produces carbon dioxide gas, which then inflates the balloon. This experiment shows how household items can be used to generate gas through a simple chemical reaction.
When the gas particles hit the walls they blow up a balloon
When the gas particles hit the walls they blow up a balloon
When the gas particles hit the walls they blow up a balloon
When you place a balloon in a bottle and then try to blow it up, the air you exhale can't fully inflate the balloon because the bottle's volume restricts the airflow. The pressure inside the bottle increases as you try to blow up the balloon, making it difficult to inflate the balloon fully.
When the gas particles hit the walls they blow up a balloon
Hot ice, also known as sodium acetate, can be used to blow up a balloon by creating a chemical reaction that produces carbon dioxide gas. Cold ice, on the other hand, will not blow up a balloon as it does not release any gas.
The carbon dioxide gas in carbonation creates pressure inside the balloon, causing it to blow up. When the bottle of carbonated beverage is opened, the carbon dioxide gas rushes out and fills the balloon due to the pressure difference.
When you blow gas into a balloon, the gas fills the balloon and creates pressure inside, causing it to expand and stretch. The balloon changes shape because the rubber is flexible and can mold around the gas inside. As more gas is blown in, the balloon will continue to expand until the pressure inside is equal to the pressure outside.
well since we breathe in oxygen and exhale carbon dioxide, it would have to be carbon Dioxide
No, a mashed up fruit cannot blow up a balloon as fruits do not produce enough gas to inflate a balloon. Balloons are usually inflated with gases like helium or air pumped in using a pump.
Neither Dr. Pepper nor Sprite will blow up a balloon the biggest. The size of the balloon mainly depends on the release of carbon dioxide gas from the beverage, so it would be best to use a carbonated drink with a high carbonation level to blow up the balloon the biggest.
Yes, when you blow up a balloon, the air inside the balloon gets compressed, increasing its temperature slightly. This is due to the gas laws, particularly the ideal gas law, which states that an increase in pressure results in a proportional increase in temperature.