Real gases would likely condense into liquids or solids at absolute zero, as their particles would lose kinetic energy and slow down significantly. This would lead to the gas molecules coming closer together and forming a more ordered structure.
Absolute Zero is still theorectical - in that we have never actually achieved it. At absolute zero all movement at even the molecular level stops. I'm not sure what you mean by 'advantages and disadvantages' of that particular state...
That's called an "ideal gas". The behavior of real gases is quite similar to an ideal gas, except when the pressure is too high, or the temperature too low.That's called an "ideal gas". The behavior of real gases is quite similar to an ideal gas, except when the pressure is too high, or the temperature too low.That's called an "ideal gas". The behavior of real gases is quite similar to an ideal gas, except when the pressure is too high, or the temperature too low.That's called an "ideal gas". The behavior of real gases is quite similar to an ideal gas, except when the pressure is too high, or the temperature too low.
That is a law that applies to an ideal gas, and (as an approximation) to real gases as well.
No, the volume of gas cannot be zero according to the kinetic theory of gases. Gas particles are in constant motion and have a non-zero volume because they occupy space. Even at extremely low pressures or temperatures, there will still be some volume occupied by gas particles.
A real machine is a physical device with moving parts that may have friction and energy losses, resulting in reduced efficiency. An ideal machine is a theoretical concept that assumes no energy losses due to friction or other factors, resulting in 100% efficiency. Ideal machines are used for theoretical calculations and comparisons, while real machines consider practical limitations and inefficiencies.
# No real substances are gaseous at temperatures near absolute zero; # Absolute zero cannot be physically achieved (though we can get pretty close). Taken together they make the question irrelevant to any real situation.
apex what is the range of the absolute... answer is nonnegative real num...
No. Absolute value applies to the set of real numbers.
use a absolute value to represent a negative number in the real world
A star's "absolute magnitude" is a measure of its absolute (or real) brightness. It is defined as the "apparent magnitude" the star would have at a standard distance of 10 parsecs, which is equal to 32.6 light years.
use a absolute value to represent a negative number in the real world
Zero. The absolute value |n| is positive for any real number. Subtracting it from itself is zero.
No, at absolute zero there would still be some volume occupied by the air molecules. Although the volume would decrease as temperature approaches absolute zero, it never reaches zero due to the Heisenberg Uncertainty Principle, which states that we can never know both the exact position and momentum of a particle simultaneously.
The absolute difference of two real numbers x, y is given by |x − y|, the absolute value of their difference. It describes the distance on the real line between the points corresponding to x and y.
The distance from zero.
Ideal gases can be explained by the Kinetic Molecular Theory: 1) no attraction between gas particles 2) volume of individual gas particles are essentially zero 3) occupy all space available 4) random motion 5) the average kinetic energy is directly proportional to Kelvin Real gases has volume and attraction exists between gas particles. No gas behaves entirely ideal. Real gases act most ideal when temperature is is high and at low pressure.
An absolute address is the identification of a fixed location in real storage in terms of the number of bytes from the beginning.