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Gas, then liquid, and finally solid. Gases have the weakes intramolecular forces of attraction (the forces that hold molecules of a substance together), and therefore have the most freedom to move about.
liquid
The intermolecular forces in gases are very weak.
If the intermolecular forces are great enough they can hold the molecules together as a liquid. If they are even stronger they will hold the molecules together as a solid. Water has nearly the same mass as methane and ammonia molecules, but the greater molecular forces between water molecules causes the water to be liquid at room temperature, while ammonia and methane, with weaker intermolecular forces, are gases at room temperature.
...because water molecules have strong intermolecular forces (hydrogen bonding) holding the moelcules together in the liquid state. Most other substances with similar molar mass do not exhibit hydrogen bonding, and thus they exist as gases.
Because their intermolecular forces are very high relative to liquid and gas
Because their intermolecular forces are very high relative to liquid and gas
No. Gases and liquids are matter. Matter is not a force; it is acted upon by forces. Gases and liquids can exert a force or transmit a force, but they themselves are not forces.
rockets take off when gases are shot out of the opposite direction with great force. The gases are conctrated by being forced through a small nozzle Liquid hydrogen and liquid oxygen is the fuel.
Gas, then liquid, and finally solid. Gases have the weakes intramolecular forces of attraction (the forces that hold molecules of a substance together), and therefore have the most freedom to move about.
They undergo a process of sublimation and bypass the liquid phase. And example is CO2.
Solid, liquid and gas will expand on heating. One exception is water that expands on being heated, and on being frozen into solid ice.
Intermolecular forces are stronger in liquids than in gases. A gas is the physical state characterized by the complete dominance of kinetic energy (disruptive forces) over potential energy (cohesive forces). Thus, gas particles move independently of one another. On the other hand, a liquid is the physical state characterized by potential energy (cohesive forces) and kinetic energy (disruptive forces) of about the same magnitude. So, the particles in the liquid have enough kinetic energy to move and slide past one another, but are still held together by any intermolecular forces. The particles in the liquid will break free of any intermolecular bonds once they obtain enough kinetic energy.
A liquid takes the shape of its container.
liquid
i think fluid phase it is being produced by gases and liquid
In liquids by convection and by radiation in gases