Gas
In the solid state, particles are tightly packed and have the least amount of kinetic energy. In the liquid state, particles are less tightly packed and have more kinetic energy than in the solid state. In the gas state, particles are far apart and have the most kinetic energy.
Steam has the most energy as its particles are in the gaseous state and move faster than particles in liquid water or ice, which are in the solid or liquid state respectively. Freezing water has a similar amount of energy as liquid water since they are at the same temperature.
Particles move fastest in the gas state because they have the most kinetic energy and are not restricted by intermolecular forces like in liquids and solids.
When water particles in their liquid state gain enough energy, they transition into the gaseous state through the process of evaporation or boiling. This occurs as the increased energy allows the particles to overcome the intermolecular forces holding them together in the liquid phase. As a result, these particles become water vapor, dispersing into the air.
When enough energy is added to a solid, the particles within it will gain kinetic energy, causing them to vibrate more vigorously. As the energy increases, these vibrations may overcome the forces holding the particles in fixed positions, leading to a transition from the solid state to the liquid state (melting). In this liquid state, the particles are still close together but can move past one another, allowing for flow.
Particles with the most energy are typically found in the gaseous state. In this state, particles have high kinetic energy and move around rapidly. However, the specific amount of energy can vary depending on the temperature and pressure of the gas.
The state in which the particles have absorbed the most heat is likely the gaseous state, as gas particles have higher energy levels and are more dispersed compared to the solid or liquid states. This allows them to absorb more heat energy before experiencing a phase change.
Gas.
Gases
The particles in gaseous state has the most energy. The particles in gases are far away and the least forces of attraction. Hence they vibrate most and have the highest energy. The least will be for solids for exactly opposite reason.
Particles in the gas state have the most energy of motion because they have high kinetic energy due to their fast and constant movement, as the particles are free to move and collide with each other. This results in particles in the gas state having higher average kinetic energy compared to particles in the solid or liquid state.
Plasma's are the most energetic states we have discovered but the answer you are probably looking for is when the matter is in a gaseous state, that is when the atoms have dissociated from each other almost completely. But in plasma the particles that make up an atom have dissociated.
In the solid state, particles are tightly packed and have the least amount of kinetic energy. In the liquid state, particles are less tightly packed and have more kinetic energy than in the solid state. In the gas state, particles are far apart and have the most kinetic energy.
Steam has the most energy as its particles are in the gaseous state and move faster than particles in liquid water or ice, which are in the solid or liquid state respectively. Freezing water has a similar amount of energy as liquid water since they are at the same temperature.
The state in which matter has the most energy is plasma. Plasma is a state of matter where the particles, such as electrons and protons, have enough energy to break free from their atoms, resulting in a highly energized and electrically charged state.
A solid has the most energy, it is the most tightly packed, then a liquid as the particles have more space, then a gas as the particles are free and there are less of them. Hope this helps. if you go to google images, you will also know what I mean
Particles move fastest in the gas state because they have the most kinetic energy and are not restricted by intermolecular forces like in liquids and solids.