No - the ideal gas law is an approximation for ideal gases, it doesn't apply exactly for real gases. Deviations are greater at very small temperatures, or very high pressures.
SZero point in the absolute scale is the temperature at which the kinetic energy of the molecule becomes Zero. For a constant pressure volume would become zero and at constant volume pressure would become zero at this absolute zero temperature.
Answer: computer says no?Answer: Also zero. This is hypothetical; an extrapolation. No real substance can be cooled all the way to zero Kelvin, and no gas would remain a gas at temperatures approaching that temperature.
The volume of gases decreases with temperature; extrapolating the volume/temperature relationship, it looked as if all gases would reach a volume of zero at approximately the same temperature, about minus 273 degrees centigrade.
Because on the Celsius (aka Centigrade) scale, zero is defined as the freezing point of water at standard pressure. On the Kelvin ( aka absolute ) scale zero is defined as the lowest temperature possible - not relative to water or any other substance.
Technically it can't be, since you would be destroying matter and the Law of Conservation of Matter states that matter cannot be created nor destroyed. The theory of absolute theory is just that; theoretical. It was created by the extrapolation of Charle's discoveries about volume and temperature with his balloon experiment, in which the data was extrapolated along a best fit line. If you were to create a method to change something's volume to zero though, let me know, I want to become rich too.
SZero point in the absolute scale is the temperature at which the kinetic energy of the molecule becomes Zero. For a constant pressure volume would become zero and at constant volume pressure would become zero at this absolute zero temperature.
Never. They've gotten an object to a fraction of a degree above absolute zero, but absolute zero is physically impossible. If you look at the ideal gas law, PV=nRT, where T is temperature and V is volume, if T were ever 0, volume must also equal 0. So in theory, if an object ever got down to 0 degrees, it must also have 0 volume. 0 volume means it isn't there, so reducing an object's volume to 0 would be equivalent to making it disappear, which is impossible. therefore, reaching absolute zero is physically and theoretically impossible.
Answer: computer says no?Answer: Also zero. This is hypothetical; an extrapolation. No real substance can be cooled all the way to zero Kelvin, and no gas would remain a gas at temperatures approaching that temperature.
by the laws of thermodynamics, nothing can ever reach absolute zero. Theoretically, molecular motion would stop. They would still be molecules, they would just not move.
No. They are as frozen still as they can ever be. It is said to be scientifically impossible to actually reach absolute zero.
Absolute zero and is equal to -273.16 Celsius
The way you state it, it is confusing. Absolute zero is a fixed temperature; therefore it doesn't increase or decrease.The volume of a gas will increase or decrease with pressure. The change in volume is such that if you extrapolate, it should theoretically have a volume of zero at approximately minus 273 degrees (Centigrade).The way you state it, it is confusing. Absolute zero is a fixed temperature; therefore it doesn't increase or decrease.The volume of a gas will increase or decrease with pressure. The change in volume is such that if you extrapolate, it should theoretically have a volume of zero at approximately minus 273 degrees (Centigrade).The way you state it, it is confusing. Absolute zero is a fixed temperature; therefore it doesn't increase or decrease.The volume of a gas will increase or decrease with pressure. The change in volume is such that if you extrapolate, it should theoretically have a volume of zero at approximately minus 273 degrees (Centigrade).The way you state it, it is confusing. Absolute zero is a fixed temperature; therefore it doesn't increase or decrease.The volume of a gas will increase or decrease with pressure. The change in volume is such that if you extrapolate, it should theoretically have a volume of zero at approximately minus 273 degrees (Centigrade).
Let me ask you instead why you think it should DISAPPEAR at absolute zero, which would actually be a lot harder to explain. In the real world, nothing is ever at absolute zero, so it's kind of a moot point. Even if we posit that miraculously something was, the mere act of illuminating it would transfer energy to it and raise the temperature some infinitesmal bit above absolute zero.
The most significant thing about the temperature of absolute zero is that is marks the point where molecular motion stops. It is equal to −459.67 degrees Fahrenheit.
The volume of gases decreases with temperature; extrapolating the volume/temperature relationship, it looked as if all gases would reach a volume of zero at approximately the same temperature, about minus 273 degrees centigrade.
Because on the Celsius (aka Centigrade) scale, zero is defined as the freezing point of water at standard pressure. On the Kelvin ( aka absolute ) scale zero is defined as the lowest temperature possible - not relative to water or any other substance.
No.