the volume of a gas will decrease at the kinetic energy of its particles decreases. (temperature is a measurement of kinetic energy). Lower kinetic energy means less particle collisions, and collisions of lesser force, leading to a lower volume. Bring the same balloon back inside from the cold, and the gas gains kinetic energy from the air indoors, and the balloon will "pump back up".
The helium particles inside the balloon are moving around as much when it is cold out. The pressure from the air outside has a higher pressure pushing into the balloon than the helium particles are, pushing out (because it is cold). If it where a hot day; the particles would move around much more causing more pressure to push from the inside of the balloon, to the outside; than air pressure pushing on the balloon.
The volume decreases as the balloon cools. The balloon will shrink.
The air inside the balloon will contract in the cold air, and the size of the balloon will become less.
The air inside the ballon will contract in the cold air, and the size of the ballon will become less.
:)
If the balloon is filled with hot air will rise quickly.
the volume of the balloon decreases
it compresses.i.e it reduces its size.
I think the voulume is required in ml , So the answer will be 152ml...
what happens is that all the heat is taken out of the refrigerator, leaving it cool on the inside and warm on the outside.
The space taken up by an object is called volume.
The amount of space taken up or occupied by an object is its volume.
no matter what happens to the bubble, even if it sinks or rises, the mass will remain the same throughout. we all know that as we go deeper into water, the pressure increases with the depth. hence, when the bubble rises, the pressure exerted on it decreases and simultaneously, the volume increases. that is all that happens to the bubble. the mass remains constant unless it bursts. the mass of air in the bubble originally is now dissolved in the water. always remember that the mass of anything is constant as long as it is acted upon the same gravitational force.
The internal air would cool down and contract (lessen) the balloon's volume.
The balloon will shrink when it goes outside. How much it shrinks will depend on the temperature difference. As temperature decreases the gas(ses) in the balloon decrease in volume causing the balloon to shrink.
It pops
System volume of a gas is directly related to pressure, volume, amount of molecules, and the gas constant. When the balloon is moved to cooler air it loses heat. The loss in temperature results in a contraction of volume.
I think the voulume is required in ml , So the answer will be 152ml...
The mass of the balloon is independent. Atmospheric pressure will not change this because atoms are not being added or taken away from the balloon itself or its contents. The volume of the balloon will change, however, as it will expand or compress in response to the atmospheric pressure around it. The volume, therefore, is a dependent variable in this situation.
At a colder temperature, the gas takes up less volume. Other things (especially pressure) being equal, the volume of an ideal gas is directly proportional to the absolute temperature (the temperature in Kelvin). A real gas will have a behavior similar to an ideal gas, under normal circumstances.
Charles law states that if the temperature of a gas increases, then the volume increases (and the opposite a.k.a. temp. goes down, volume goes down). Imagine a balloon filled with helium on a cold winter day. While you are in the shop, the balloon is normal. As you step outside the balloon begins to shrivel up. This happens because of the temp. of the helium in the balloon deceases and becomes less dense, because the helium particles lose energy and become more concentrated, decreasing the volume. But when you put the balloon in a warm area, it goes back to its original size. I hope this helped you.
Yes, a force can change the volume of an object. Some objects are not very compressible, but some are. A balloon might be an example of the latter. With a balloon, the less the pressure on the outside, the larger the volume taken up by the gas inside as the balloon expands. When we launch high altitude balloons, we fill them with enough helium to get them going, and as they get higher in the atmosphere where air pressure is less, the balloon expands. The gas inside is taking up more volume. In a less dramatic example, if we take a rubber ball and attach it to a deep diving submarine or ROV (remotely operated vehicle), it will be compressed by the increasing water pressure as the ball descends. Nothing is totally resistant to a change in force, but some things react a great deal more than others. A block if steel won't be compressed very much, even if it is lying on the ocean floor. But is it slightly smaller in volume there than it would be at the surface.
what happens is that all the heat is taken out of the refrigerator, leaving it cool on the inside and warm on the outside.
When the temperature drops gases contract, so the balloon would be less inflated. This is the same reason why tire pressure drops when it gets cold outside.
usually in an airplane or balloon.