gas molecules collide with one another. They collide until they become equidistant dfrom one anohter. this is why they have a larger volume, they venture out until they are equidistant form each other, filling the container.
The volume of a gas is greater than that of a liquid because gas particles are more spread out and have higher energy, leading to more space between the particles compared to the closer-packed particles in a liquid. This results in gas occupying more volume than a liquid for the same amount of substance.
The are a couple of differences: First, the particles in a gas are more loosely packed than in a liquid. Second, a liquid has no definite shape but definite volume; a gas has no definite volume and no definite shape.
Gas expands more than liquid because gas particles have more freedom of movement and are not constrained by a fixed volume like liquid particles are. This allows gas to fill the available space it is placed in and exert pressure on its container. Liquid, on the other hand, has a fixed volume and only expands slightly with changes in temperature or pressure.
During evaporation, molecules escape the liquid surface into the air as gas. This conversion from liquid to gas reduces the volume of the liquid as it evaporates. However, the total volume of the system remains constant since the gas molecules occupy the space above the liquid.
Liquid nitrogen is a liquid when at low temperature (−195.79 °C or −320 °F) and normal atmospheric pressure. However, it can rapidly change to nitrogen gas when it is allowed to warm up to room temperature.
No, gases have higher energy than liquids because gas particles have more kinetic energy and move faster than liquid particles due to weaker intermolecular forces.
Yes, Liquid -Liquid displacement is easier than displacement with gas. the liquids cannot be compressible, but gas can. the volume of gas required for displacement is lower than volume of liquid.
The are a couple of differences: First, the particles in a gas are more loosely packed than in a liquid. Second, a liquid has no definite shape but definite volume; a gas has no definite volume and no definite shape.
The are a couple of differences: First, the particles in a gas are more loosely packed than in a liquid. Second, a liquid has no definite shape but definite volume; a gas has no definite volume and no definite shape.
There has not been a gas denser made or existing and not only that, gas is always frequently moving and does not shape up like liquid.
That's not true. The molar volume of a gas is always greater than the molar volume of a liquid. I can't think of any exceptions to this.
The molecules are further apart, thus the gas is less dense and the volume is greater.
A gas is typically around 1,000 times larger in volume than the liquid it evaporates from. This expansion occurs due to the conversion of the liquid to gas molecules, which move more freely and occupy significantly more space.
No. The state of a substance does not tell the number of molecules present. In a gas, the molecules move more freely than in a liquid as they are not bound to each other by intermolecular forces. If you're going by volume, a given volume of a gas will generally contain fewer molecules except at very high pressures.
yes, the atoms are more compressed in liquid than gas
A gas will undergo a change in volume more easily than either a liquid or a solid.
Density is defined as the mass of a substance per its unit volume (i.e. d = m/V).The liquid form of any particular substance will have its atoms (or molecules, for a molecular substance) packed more closely together than its gaseous form. If they are packed more closely together in a liquid, there will be more atoms per unit volume in the liquid than the gas.For example, if you were to take 1 cubic metre of argon gas (at 1 atm) and 1 cubic metre of liquid argon, you would have more atoms of argon in the liquid sample than the gas sample.Therefore, for identical V, if m(gas) < m(liquid), then it follows that d(gas) < d(liquid).
Less dense than solid, more than gas; definite volume, but no definite shape; and lighter vescosity than solids.