It gets bigger because as it gets higher, the density of the atmosphere will rise when the density inside the balloon stays the same. Then because of pressure, it will get bigger and eventually pop.
As you twist the balloon, the volume decreases. In accordance with Boyle's Law, volume and pressure are inversely related. As the volume decreases, the pressure increases. This is pretty intuitive: you know that if you make enough twists in the balloon, eventually the pressure will cause it to pop.
When air is heated, its volume increases. If you fill a balloon with comparably cold air and then let it touch hotter air, the air inside will expand and thereby increase the pressure on the balloon membrane. If this pressure gets too strong, the balloon might pop.
The ideal gas law describes the relationship between volume, pressure, and temperature of a gas. When a balloon is taken to a mountaintop, where the atmospheric pressure is lower, the volume of the balloon increases because the pressure on the balloon decreases. This change in volume is in accordance with Boyle's law, a special case of the ideal gas law.
Boyle's Law describes the relationship between the pressure and volume of a gas at constant temperature. According to Boyle's Law, when adding gas to a balloon, the volume will decrease if the pressure inside the balloon increases.
If the volume of the tank was effectivelly constant, and the tank was sealed to prevent gas escaping, the pressure of the gas would increase.
The balloon will shrink or deflate as the increased pressure compresses the air inside it. This is because the volume of the balloon decreases as the pressure around it increases.
5.3 liters
Blowing air into the balloon increases the pressure inside the balloon. This increased pressure pushes against the walls of the balloon, causing it to expand and stretch. The volume of the balloon increases, allowing it to hold more air.
If temperature and volume is fixed,pressure reduces.
When you blow air into a balloon, you increase the pressure of the air inside the balloon. This higher pressure pushes against the walls of the balloon, causing it to expand and inflate. The elastic material of the balloon stretches to accommodate the increased volume of air.
The balloon would shrink in size as the pressure increases with depth, causing the air inside to compress. If the balloon were to reach a depth of ten feet below the water surface, it would likely shrink significantly due to the increased pressure underwater.
An example of volume and pressure of an object would be a balloon. When you blow air into a balloon, you are increasing its volume which in turn increases the pressure inside the balloon. If you release the air from the balloon, the volume decreases and the pressure decreases as well.
If the volume of gas in the balloon remains constant, then an increase in temperature would result in an increased gas pressure in a balloon.That result can be achieved in three ways:1). Pump more gas into the balloon.or2). Heat the balloon.or3). Surround the balloon completely with something and squish it down into a smaller volume.The volume is increased.
If the volume of gas in the balloon remains constant, then an increase in temperature would result in an increased gas pressure in a balloon.That result can be achieved in three ways:1). Pump more gas into the balloon.or2). Heat the balloon.or3). Surround the balloon completely with something and squish it down into a smaller volume.The volume is increased.
If the volume of gas in the balloon remains constant, then an increase in temperature would result in an increased gas pressure in a balloon.That result can be achieved in three ways:1). Pump more gas into the balloon.or2). Heat the balloon.or3). Surround the balloon completely with something and squish it down into a smaller volume.The volume is increased.
If the pressure is kept constant while increasing the temperature of the air in a balloon, the volume of the gas inside the balloon would change. This is because as the temperature rises, the gas molecules gain energy and move faster, leading to an increase in volume to maintain a constant pressure.
The kinetic energy of the particles inside the balloon increase. This then expands the volume of the balloon.