Yes. In this sense, a plasma is similar to a gas.
The scientific method is a definite and concrete set of rules.
Because the particles can't move the object can't move which give it the shape and volume
All their legs have similar size and shape.
more than 1
All atoms and molecules are always in motion. The average kinetic energy of an atom or molecule in any material is proportional to the temperature. This is true whether the material is solid, liquid or gas. Caveat: It is sometimes said that motion ceases at absolute zero in temperature. That is almost true, but there is something called quantum zero point motion that is present even at zero temperature and that complicated the question to a level that is beyond the current discussion.
true they do not flow and if its some sand or rice its acts like a liquid but really each grain of sand holds its own shape and is there for a liquid
true
true
False, their shape does not stay the same
Yes. To clarify: Solids : Take up a definite space and have defined shape Liquids : Take up a definite space but have no defined shape Gas : Have no defined space or shape.
true
Minerals by definition are solid, naturally occurring inorganic materials with a definite shape and crystalline structure. Opal water and mercury are both liquids lacking a definite shape and crystalline structre.
A solid. A liquid also takes up space, but does NOT have a definite shape. This is also true for a gas.
Yes, it is true; sugar (sucrose) is a solid organic compound.
The matter is anything that has mass and takes up space. Mass gives an object the property of weight and inertia (resistance to change in the motion of an object). There are four states of matter, solid, liquid, gas, and plasma. If something is in a solid-state of matter, it has a definite shape and volume. So, it's true.
Yes that is true (for any given temperature and / or pressure, as both of those factors could affect the volume of a liquid)
False. Gases in a container take the shape of the container. The volume of a gas increases with temperature and inversely with pressure, except when in a closed container where volume remains the same as the volume of the container and the temperature and pressure will vary.