Yes, hydrogen can exist in a solid state under specific conditions of very low temperature and high pressure.
Yes, it is possible for light to exist in a solid state through a phenomenon called "slow light" or "frozen light," where light is effectively trapped and slowed down within a solid medium such as a crystal or a Bose-Einstein condensate.
A physical state in which a substance can exist depends on its temperature and pressure. Common states include solid, liquid, gas, and plasma. For example, water can exist as ice (solid), liquid water, or steam (gas) depending on its temperature and pressure.
Most elements exist in the state of matter known as solids at room temperature and pressure. Some elements can also exist as liquids or gases depending on the conditions.
Aluminum naturally exists in the solid state at room temperature and pressure. It has a high melting point (660.3°C) and therefore remains solid unless heated to that temperature.
Yes, helium can exist in a liquid state at very low temperatures, specifically below -268.9 degrees Celsius.
Yes, it is possible for light to exist in a solid state through a phenomenon called "slow light" or "frozen light," where light is effectively trapped and slowed down within a solid medium such as a crystal or a Bose-Einstein condensate.
Hydrogen can exist in different states of matter depending on the temperature and pressure. At room temperature and pressure, hydrogen is a gas. At very low temperatures, it can become a liquid or a solid.
Hydrogen exists in a gaseous state at room temperature and pressure. It is the lightest and most abundant element in the universe. Hydrogen can also exist in a liquid state at extremely low temperatures, below its boiling point of -252.87°C.
solid
If it were a solid at room temperature, then that would be the state of matter. However, hydrogen is NOT solid at room temperature. It is a gas and that would be the state of matter.
Solid state
Yes, hydrogen exists as gas, liquid, and potentially solid within Jupiter. At the outer layers, hydrogen is in gaseous form, while deeper within the planet's interior, the hydrogen is compressed to the point where it takes on a liquid-like state. Under extreme pressure and temperature conditions in Jupiter's core, hydrogen may exist as a solid, with properties different from what we observe on Earth.
By definition a rock is in a solid state.
Most elements in the periodic table exist in a solid state at room temperature and pressure. However, some elements are gases, such as hydrogen and helium, while a few are liquid at room conditions, such as mercury and bromine.
water can be a solid liquid or a gas.
No, solutions can exist in different states of matter, not just in the liquid state. Solutions can exist in the solid, liquid, or gas state depending on the solvent and solute involved in the mixture.
Hydrogen becomes a solid at -434.5 degrees Fahrenheit