No, actually none do. Most apply to some of the traits of the KMT at STP. (standard temperature and pressure) or 1 atm and 273 K
This can be explained in terms of the kinetic molecular theory of gases. Due to the low density of gases, the particles are more widely spaced and so most of the volume taken up by a gas is empty space (as in any shaped container).
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.
the kinetic theory is useful for? A.determining how much heat is necessary to melt a solid. B.explaining how matter and energy are related. C.testing the temperature gas. D.showing the differences between states of matter.
their kinetic energy is transferred to the electrons of the neighboring atoms and kinetic energy is conserved as most molecular collisions are elastic.
Gases are one of the four states of matter. they have widely spaced molecules, weak attractive forces, most kinetic and thermal energy among the other states of matter. Gases can be compressed. They do not have fixed shape and volume. their particles are arranged in a disorderly manner.
the kinetic moecular theory
This can be explained in terms of the kinetic molecular theory of gases. Due to the low density of gases, the particles are more widely spaced and so most of the volume taken up by a gas is empty space (as in any shaped container).
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.
Gases
the kinetic theory is useful for? A.determining how much heat is necessary to melt a solid. B.explaining how matter and energy are related. C.testing the temperature gas. D.showing the differences between states of matter.
LiCl
Type your answer here... kinetic theory explains the behavior o gases quantitatively...... but the most important point in this theory is it also consider the nature of a gas also in consideration it was put orwarded by Bernoulli and its mathematical derivation was done by Clausius.........PV =I/3mNc2...........also law o distribution o velocities was derived by Maxwell ROM this eq............ Boltzmaam explained law of Distribution o energies ROM this eq.also..........................Van der Waal corrected grneral gas eq.ater pointing out two faulty assumption of kinetic theory ...... sajikhan800@yahoo.com
their kinetic energy is transferred to the electrons of the neighboring atoms and kinetic energy is conserved as most molecular collisions are elastic.
their kinetic energy is transferred to the electrons of the neighboring atoms and kinetic energy is conserved as most molecular collisions are elastic.
Almost any element, including the heavier noble gases, can form a molecular compound (if chelated cations are considered molecular as most chemists would), but the vast majority of such compounds are composed of nonmetals.
Gases are one of the four states of matter. they have widely spaced molecules, weak attractive forces, most kinetic and thermal energy among the other states of matter. Gases can be compressed. They do not have fixed shape and volume. their particles are arranged in a disorderly manner.
The most important is the molecule diameter.