volume decreases to one half of the original volume
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.
The balloon undergoes a decrease in temperature, causing the air molecules inside it to lose energy and move closer together. This results in a decrease in pressure and volume, causing the balloon to shrink in size.
The molecules in the balloon can't take the pressure inside of it so it bursts.
Placing a balloon in the freezer will cause the air inside it to cool down and contract, decreasing the volume of the balloon. If the balloon is made of a material that can withstand the drop in temperature, it will likely shrink as the molecules inside it lose kinetic energy and move closer together.
The volume of a bubble can vary depending on its size, but generally, bubbles are small spheres filled with gas. The volume of a bubble is determined by its radius and follows the formula for the volume of a sphere: V = (4/3)πr^3, where r is the radius of the bubble.
When a hot air balloon flies, the chemical reaction that occurs is the heating of the air inside the balloon, causing it to expand and become less dense than the surrounding air. This creates lift, allowing the balloon to rise. You can confirm that a chemical reaction has taken place by observing the change in volume and buoyancy of the air inside the balloon as it heats up.
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.
The volume is changed.
The balloon undergoes a decrease in temperature, causing the air molecules inside it to lose energy and move closer together. This results in a decrease in pressure and volume, causing the balloon to shrink in size.
When thinking of a balloon, it's best to think of two different chemical compounds that do not mix, the balloon itself and air. What makes the balloon pop is that the pressure of the air exceeds the force of the chemical bonds of the balloon. In order for a chemical reaction to take place, you need to start off with one set of chemicals that become a new set of chemicals.However, when a balloon pops, no new chemicals are created. All that happens is that the electron bonds of the compound we know of as the balloon break.
The molecules in the balloon can't take the pressure inside of it so it bursts.
When a balloon full of air is moved from a cold place to a warm place, the air inside the balloon will warm up and expand. This causes the balloon to inflate further and possibly burst if the pressure inside the balloon becomes too high.
Placing a balloon in the freezer will cause the air inside it to cool down and contract, decreasing the volume of the balloon. If the balloon is made of a material that can withstand the drop in temperature, it will likely shrink as the molecules inside it lose kinetic energy and move closer together.
The volume of a bubble can vary depending on its size, but generally, bubbles are small spheres filled with gas. The volume of a bubble is determined by its radius and follows the formula for the volume of a sphere: V = (4/3)πr^3, where r is the radius of the bubble.
When thinking of a balloon, it's best to think of two different chemical compounds that do not mix, the balloon itself and air. What makes the balloon pop is that the pressure of the air exceeds the force of the chemical bonds of the balloon. In order for a chemical reaction to take place, you need to start off with one set of chemicals that become a new set of chemicals.However, when a balloon pops, no new chemicals are created. All that happens is that the electron bonds of the compound we know of as the balloon break.
We are all similar to the experiment the scientist Galileo conducted when testing the laws of gravity. He had been atop the Leaning Tower Of Pisa and had thrown objects of the different weights and they had landed on the ground at the same time. This is because gravity pulls all objects, regardless of mass at the same speed. Some factors which could alter this could be air resistance, which causes friction. So if in a room without air, i think that the balloons will fall at the same time. Normally, though, i think that aside from some circumstances, the smaller balloon will fall first. (if there is air in the big one, of course it won't fall quickly, its mass will be reduced)
When you place a balloon in a freezer, the air inside the balloon cools down and contracts. This causes the balloon to shrink in size. If the balloon is made of a material that can withstand the cold temperature, it will return to its original size when it warms up.