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The pressure exerted by one gas in a mixture (apex)
The pressure exerted by one gas in a mixture
Yes. That is True. Dalton's Law is: that pressure exerted by a mixture of gases is the sum of the pressures exerted independently by each gas in the mixture. Reference: Human Anatomy and Physiology Marieb and Hoehn
Dalton's law
The bond in the molecule is covalent.
because gas is a free molecule that can move anywhere.
The pressure that the gas exerts on the walls of any vessel has to do with the force that the particles of gas were exerted as a consequence of their very own kinetic energy. That helps know why the gas does not have to depend on the type of gas.
because of the molecule they will just arrange it and because of the gravity
because of the molecule they will just arrange it and because of the gravity
Pressure
The pressure that the gas exerts on the walls of any vessel has to do with the force that the particles of gas were exerted as a consequence of their very own kinetic energy. That helps know why the gas does not have to depend on the type of gas.
Each atom and molecule will have its own magnetic moment - thus making it an intensive property. If you get a collection of such atoms or molecules in a gas, the total combined magnetic moments will be an extensive property.
The neutral SF6 molecule has no dipole moment. The gas phase SF6- ion is not that well understood- on the basis that the shape is distorted octahedral a small dipole would be expected.
The pressure exerted by a solid object is in only one direction.
The pressure exerted by a solid object is in only one direction.
is motions of gas particles are related to the pressure exerted by the gas
The pressure exerted by one gas in a mixture (apex)