Solids - Fixed volume and shape. Particles in a solid have a rigid structure and vibrate.
Liquids - Fixed volume but no fixed shape. Particles in a liquid can flow and have more energy than in solids.
Gases - No fixed volume and no fixed shape. Gas particles move with a lot of energy and fill the space available to them.
No, liquids, solids, and gases do not have the same mass. Mass is a measure of the amount of matter in an object, so the mass of a substance will be the same regardless of its state (solid, liquid, gas). However, the volume and density may differ between the states.
The density of a substance is its mass divided by its volume. To find the density, you would need to know the specific substance. The unit of density is typically expressed in g/ml for solids and liquids, or g/cm3 for solids.
In general, gases are less dense than solids because the particles in gases are more spaced out compared to the particles in solids. This is due to the lower attractive forces between gas particles, allowing them to move more freely and occupy a greater volume.
The forces of attractions between molecules of a solid is very great. Hence, the molecules are very densely packed (ie, very close to each other). That is why they do not posses fluidity. In liquids and gases (fluids), the molecular attraction is much less, which allows them to flow.
Liquids are fluids so they flow, and they are able to move around and over each other. Liquids have a definite volume but no definite shape and they will find their own level within a container.
Humans are more use to engaging and thinking about solids than liquids or gases. They are easier to find because they are what we are looking for.
I think because mostly it is solids that are all around you, and what you notice the most. So you don't really pay attension to liquids or gases unless your handling them.
the solids and liquids you can find on Saturn is only gas which is around it's rings.
Solids, liquids, and gases? sorry if you are only looking for one answer but that's all I could find
No, liquids, solids, and gases do not have the same mass. Mass is a measure of the amount of matter in an object, so the mass of a substance will be the same regardless of its state (solid, liquid, gas). However, the volume and density may differ between the states.
Water is the liquid, and helium + hydrogen are the gases. To find out more type in ``saturn" in the box above.
The density of a substance is its mass divided by its volume. To find the density, you would need to know the specific substance. The unit of density is typically expressed in g/ml for solids and liquids, or g/cm3 for solids.
You can find almost any state of matter in your house. Solids- almost everything around you EX. a table or a glass Liquids- water, juice etc. Gas- if you have a fire place that is run on gas, or the gas that goes to a gas stove. Also air and steam are considered gasses. the only state of matter you probably dont have in your house is plasma. which makes up 99% of the matter in the universe. an example of plasma would be lightening or the northern lights Hope this helps
You would not find any gases in a cupboard other than what you would find in normal air. The gases you would find in normal are are: Nitrogen (78%) Oxygen (20%) Carbon Dioxide (0.03%) Rare Gases (Helium, Krypton, Argon, etc. 0.97%) And Water Vapour (varying amounts) These would be the five basic gases you would find in a cupboard.
Viscosity is a property of liquids and gases. In every day terms syrup is viscous and water isn't. Liquids with high viscosity are difficult to stir, there is resistance to movement through the liquid. A change of state from liquid to gas would cause the viscosity to reduce. Technically viscosity is a resistance to shear or tensile stresses. Viscosity can be measured for all liquids and gases. Wikipedia gives a technical description.
I don't know, I'm trying to find out that question to! LOL (laugh out loud!)By Emily Barns - 10
In general, gases are less dense than solids because the particles in gases are more spaced out compared to the particles in solids. This is due to the lower attractive forces between gas particles, allowing them to move more freely and occupy a greater volume.