Yes, matter can exist in three states: solid, liquid, and gas. These states depend on the arrangement and movement of the atoms or molecules that make up the material.
A solution is a liquide si it can only exist in liqiude form( unless frozen or heated of cause)
Metals are typically solid at room temperature, with the exception of mercury, which is a liquid. Metalloids can exist in different states, but most are solid at room temperature. Nonmetals can be found in all three states of matter at room temperature: solid (such as carbon and sulfur), liquid (such as bromine), and gas (such as oxygen and nitrogen).
At room temperature, three common states of matter are solid, liquid, and gas. Solids, like ice or metals, have a fixed shape and volume. Liquids, such as water, take the shape of their container while maintaining a constant volume. Gases, like air, fill their container and have neither a fixed shape nor a defined volume.
there are no states of matter in helium.helium is a gas,wich is a state of matter.
The three states of matter in which water can exist are gas, liquid, and solid.
yes
Solids Liquids Gases
Yes, matter can exist in three states: solid, liquid, and gas. These states depend on the arrangement and movement of the atoms or molecules that make up the material.
yes,yes it can
Don't they all exist in the three states of matter? Depending on the temperature...
Matter can exist in three states: solid, liquid, and gas. These states are determined by the arrangement of particles and the amount of energy they possess. At extreme conditions, matter can also exist in plasma, Bose-Einstein condensates, or other exotic states.
Right now just water
Water exist in all the three states. These states are solid , liquid and gas.
A solution is a liquide si it can only exist in liqiude form( unless frozen or heated of cause)
Well everything has matter therefore, it is possible for it to be in all 3 states
Water is a substance that can exist in all three states of matter. It is a solid (ice), liquid (water), and gas (water vapor) at different temperatures and pressures.