Boyle, Gay-Lussac & Charles, combined Robert Boyle (Irish, 1662) Edme Mariotte (French, 1676) These 2 guys invited this general idea for gas in about the same time. Gay-Lussac-Charles (1787): pV=const.(in the perfect gas). This guy calculated that volume of gas adequately increases, when pressure decreases. And other way round. However, this theory does not work for in real enviromnent.
Assuming pressure is constant, like you said, volume and temperature have a direct relationship. As temperature increases, volume increases; as temperature decreases, volume decreases. Setting up a algebraic direct proportion, you get approximately 3.84 liters for the balloon at 285 degrees K.
Charles' law of gases (V=kT where V=volume, T=temperature, k=some proportionality constant) states that Volume and Temperature are directly proportional. That is: as the temperature of a gas increases, so will the volume. Similarly, as the temperature decreases, so will the volume and vice versa. With all that said, I don't know because this answer was a "yes or no" question. See that sh.it I did there? It's all rubbish, because I copied and pasted into it. You figure it out.
The basic equation is a special case of the ideal gas law. It states that the volume is proportional to the absolute temperature of said gas at a constant pressure.
A volatile liquid
The organization of the periodic table in terms of conductors of electricity could also be said to be the organization of the periodic table in terms of metallic character, since metals are the best conductors of electricity. Metallic character decreases across a period and increases down a group.
Decreases.
Robert Boyle
Robert Boyle! :)
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This is Boyle's law which holds true as long as the temperature is constant.
Assuming pressure is constant, like you said, volume and temperature have a direct relationship. As temperature increases, volume increases; as temperature decreases, volume decreases. Setting up a algebraic direct proportion, you get approximately 3.84 liters for the balloon at 285 degrees K.
As a given mass of gas is allowed more volume, pressure decreases. volume is a measure of space, and because gas can be compressed to fit in small volumes, the increase of volume on a gas does not imply an increase in amount of gas, simply space that it is allowed to spread through.
When the area over which a force is applied decreases, the average force applied over said area increases. In other words, the pressure (force/area) increases.
ballai
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copper
It is implied that x increases when y decreases and conversely. There is no implication about a causal relationship.