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I am assuming that a rubber balloon is meant here not a hot air balloon! Squeezing a balloon will give rise to a decrease in volume and a subsequent increase in internal pressure which may not be too large as the balloon expands in another part to compensate. Using the kinetic theory of gases (which shouldn't strictly be applied to this case but provides insights) the average energy of the particles inside depends on the temperature- the particles don't go any faster they just hit the inside of the balloon more often because of the decrease in volume.
The particles in the balloon slow down as the temperature decreases cause it to deflate
The volume decrease only when the external pressure increase.
Decrease the pressure of the surrounding environment. Thus, the force acting on the balloon from the outside decreases, allowing the air pressure that creates a force inside the balloon to have less of a counteracting force.
The volume decrease.
Pressure (such as air in a balloon) can increase with higher temps and decrease with lower temps.
When the temperature is colder the particles in the balloon travel slower, making the balloon not able to increase in size it decreases.When the temperature is hot it allows the balloon to expand because the particles in the balloon are moving rapidly. in conclusion the the cold makes the balloon decrease in size and the heat allows it to expand.
When the temperature is colder the particles in the balloon travel slower, making the balloon not able to increase in size it decreases.When the temperature is hot it allows the balloon to expand because the particles in the balloon are moving rapidly. in conclusion the the cold makes the balloon decrease in size and the heat allows it to expand.
The kinetic energy of the particles inside the balloon increase. This then expands the volume of the balloon.
I am assuming that a rubber balloon is meant here not a hot air balloon! Squeezing a balloon will give rise to a decrease in volume and a subsequent increase in internal pressure which may not be too large as the balloon expands in another part to compensate. Using the kinetic theory of gases (which shouldn't strictly be applied to this case but provides insights) the average energy of the particles inside depends on the temperature- the particles don't go any faster they just hit the inside of the balloon more often because of the decrease in volume.
The particles in the balloon slow down as the temperature decreases cause it to deflate
Actually, it should decrease in size. The volume of a gas is directly proportional to the temperature of a gas (measured in Kelvin). Therefore if you inflate a balloon with your warm breath and then cool it down with cold water, the balloon will shrink, not increase in size.See the Related Questions for more information about the effect of temperature on gases.
They move faster.Particles on the outside of the balloon are slower.The particles will move faster due to an increase in their kinetic energy.
The volume decrease only when the external pressure increase.
Think of a balloon. Let some air out and the pressure goes down, and the balloon decreases in size.
Take a packet of ENO powder. and soda a balloon (heart
Yes. When you squeeze the balloon, you cause the volume to decrease. Since density is determined by dividing mass by volume, a decrease in volume will cause an increase in denisty.