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.
The thermal energy of a substance is related to its physical state by determining the motion and arrangement of its particles. In solid state, particles have low thermal energy and vibrate in fixed positions. In liquid state, particles have higher thermal energy and move more freely. In gas state, particles have the highest thermal energy and move independently of each other.
The gaseous state usually has the most thermal energy because particles are moving faster and have more kinetic energy compared to liquids and solids. This increased movement and energy in gases is due to the higher temperature associated with their state.
Delta in the equation for thermal energy typically represents a change or difference, such as a change in temperature or heat energy. It signifies the final state of the system minus the initial state to calculate the thermal energy change.
When thermal energy is released, water turns from a liquid state to a gaseous state, becoming water vapor or steam.
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.
10g of bromine will store the most thermal energy in its liquid state, as this is when bromine has the highest specific heat capacity. In its liquid state, bromine can absorb the most thermal energy per gram compared to its solid or gas states.
The thermal energy of a substance is related to its physical state by determining the motion and arrangement of its particles. In solid state, particles have low thermal energy and vibrate in fixed positions. In liquid state, particles have higher thermal energy and move more freely. In gas state, particles have the highest thermal energy and move independently of each other.
It doesn't, Temperature is a MEASURE of the thermal energy state of something.
The gaseous state usually has the most thermal energy because particles are moving faster and have more kinetic energy compared to liquids and solids. This increased movement and energy in gases is due to the higher temperature associated with their state.
cold
The thermal energy of a substance determines its state, since thermal energy, aka internal energy, is the energy the molecules in the substance have. If the energy exceeds the force holding the substance together the substance undergoes a phase change.The physical state of a substance is related to its temperature, the measure of thermal energy. The substance can change states depending on the temperature, e.g. boiling.
The thermal energy of a substance determines its state, since thermal energy, aka internal energy, is the energy the molecules in the substance have. If the energy exceeds the force holding the substance together the substance undergoes a phase change.The physical state of a substance is related to its temperature, the measure of thermal energy. The substance can change states depending on the temperature, e.g. boiling.
Delta in the equation for thermal energy typically represents a change or difference, such as a change in temperature or heat energy. It signifies the final state of the system minus the initial state to calculate the thermal energy change.
When thermal energy is released, water turns from a liquid state to a gaseous state, becoming water vapor or steam.
The thermal energy of a substance determines its state, since thermal energy, aka internal energy, is the energy the molecules in the substance have. If the energy exceeds the force holding the substance together the substance undergoes a phase change.The physical state of a substance is related to its temperature, the measure of thermal energy. The substance can change states depending on the temperature, e.g. boiling.
From least thermal energy to most: solid, liquid, gas. In solids, particles are closely packed and have the least amount of thermal energy. Liquids have more thermal energy than solids because their particles can flow and move around. Gases have the most thermal energy as their particles move freely and rapidly.