A self-sealing rubber balloon filled with gas can be compressed when squeezed. The gas molecules inside the balloon move closer together, increasing the pressure of the gas. The balloon reverts to its original shape when the pressure is released.
The pressure in a container is due to the particles of the gas hitting the inside walls of the container.
A balloon is a container that is usually filled with gas, such as helium or hydrogen. The gas inside the balloon makes it float and gives it its buoyant properties.
Carbon dioxide will dissolve better in a carbonated soft drink when the pressure is released, such as when opening the container. This allows the gas to escape from the liquid, resulting in less carbonation. Heating the container can also cause the gas to escape, while cooling can result in the gas staying dissolved in the liquid.
If the lid is removed from a container holding helium gas, the helium will escape into the surrounding environment since helium is lighter than air. This can result in the helium dispersing quickly due to its low density compared to the air around it.
You can lower the density of hydrogen (or any) gas by heating it in a container where it is free to expand, like a balloon.
When doing the balloon experiment, the balloon stops inflating when the pressure inside the balloon equals the pressure of the gas being released from the reaction in the container. This equilibrium is reached when the forces pushing the gas out of the container are balanced by the forces keeping the gas inside the balloon.
because as you heat the gas, you cause the gas to expand on the container (whish is a balloon), this lowers the density, and a less dense fluid submersed in a denser fluid will rise, like an air bubble rises from underwater
Depends on the strength of the container. A balloon, for instance, won't keep it's shape but a glass jar can within proportion. See Boyle's Law. I oppose gas does not keep the shape of anything that has yet to be inviented
A self-sealing rubber balloon filled with gas can be compressed when squeezed. The gas molecules inside the balloon move closer together, increasing the pressure of the gas. The balloon reverts to its original shape when the pressure is released.
No, a helium balloon is not a solid. It is a gas-filled flexible container made of materials like latex or mylar.
The pressure in a container is due to the particles of the gas hitting the inside walls of the container.
A balloon is a container that is usually filled with gas, such as helium or hydrogen. The gas inside the balloon makes it float and gives it its buoyant properties.
It will escape
If the temperature remains constant and the volume of the container holding the gas decreases, the pressure of the gas will increase. This is because as the volume decreases, the gas particles have less space to move around, leading to more frequent collisions with the container walls, thus increasing the pressure.
The shape of the gas is determined by the shape of the container (assuming that there is enough gas to fill the container). The volume of the gas is determined by the volume of the container (again assuming that there is enough gas present to fill the container.). When a gas is introduced into any container, it will assume the size and shape of the container if the container is filled. The exception to this rule might be if the pressure of the gas introduced is great enough to influence the shape of the container (i.e. blowing up a balloon).
When a balloon has a leak, the pressure inside the balloon decreases as the gas molecules escape through the leak. This results in the balloon deflating and becoming smaller in size.