The balloon will expand and (maybe) burst.
Charles's Law states that Volume/Temperature=Constant, that is, temperature increase will cause a volume increase.
When the air surrounding us becomes hotter, it compresses downward and may cause a balloon to fall rapidly from the sky. Notice in the very hot regions when the temperature gets too hot that airplanes cannot take off as there isn't enough "lift" with the hotter sinking air?
The hydrogen in a sealed rubber party balloon is compressed slightly by the balloon rubber. So its density decreases a little, its pressure increases, and its temperature increases. But the temperature soon returns to the ambient temperature as heat is lost through the balloon wall. Also, the hydrogen will not stay in the balloon for long because it will leak out through pores in the rubber.
The liquid is so cold that the air particles in the balloon almost stop moving, which causes the balloon to shrink. When the balloon is taken out of thr liquid the particles regain speed and expand inside of the balloon.
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.
Iodine is a solid at room temperature and pressure. It sublimes, meaning it changes directly from a solid to a gas without passing through a liquid phase.
When liquid nitrogen is poured on a balloon, the air inside the balloon quickly cools and contracts, causing the balloon to deflate. The extreme cold of the liquid nitrogen causes the gas particles inside the balloon to lose energy and move closer together, resulting in a decrease in pressure that makes the balloon shrink.
Nothing happens to the mass of the balloon. Mass is conserved, so the temperature of the balloon will not affect it's mass. Mass can be thought of the amount of "stuff" that makes up a balloon. It can be obtained by adding up the mass of all the molecules of rubber in the balloon. Obviously, putting the balloon in a warm room will not change the number of molecules in the balloon, therefore the mass stays constant. The volume of the balloon will probably increase. Because volume increases but mass remains constant, the density of the balloon would decrease. D = m/v
When a balloon filled with helium or CO2 is placed in the refrigerator, the gas inside the balloon will contract and become denser due to the lower temperature. This will cause the balloon to deflate slightly or shrink in size. Once the balloon is removed from the refrigerator and returns to room temperature, the gas will expand again and the balloon will regain its original size.
The volume of the balloon decreases as the temperature decreases because the particles inside the balloon move more slowly and become more closely packed together, causing the balloon to shrink. This is because gases contract when they are cooled.
Nothing. It is at room temperature.
The warm temperature inside the greenhouse can cause the air molecules inside the balloon to expand, increasing the pressure inside. This can lead to the balloon either expanding in size or potentially bursting.
Whatever the room temperature happens to be at the time. If the room is 75° then the salt would be the same temperature.
When a balloon is placed in a warm room, the air molecules inside the balloon receive more energy and move faster, causing them to expand and increase the pressure inside the balloon. This leads to the balloon inflating and appearing larger than before.
It may pop depending on the level and temperature it is on.
Whatever temperature the room happens to be.
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.
When you put an inflated balloon in a warm room, the air molecules inside the balloon gain kinetic energy and move faster, causing them to exert more pressure on the balloon walls. This increased pressure may cause the balloon to expand slightly as it absorbs some of the heat energy from the room.
The volume decrease.