The solid state.
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.
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 state of matter than has the least internal kinetic energy (the kinetic energy of all the internal particles relative to the center of mass of the system), or the least internal + macrosopic kinetic energy, is the same state as "Which state of matter has the least thermal energy?". (hint: it's not the gaseous state). However, if you are asking what state of matter has the least macroscopic kinetic energy: Every state of matter can have systems with zero macroscopic kinetic energy. So none of them (or perhaps all of them) have the "least" kinetic energy.
The least usable form of energy is thermal energy, such as low-temperature heat, because it is difficult to harness efficiently and convert into other forms of energy. Thermal energy is often dispersed and not easily concentrated or converted into useful work.
Coldness and heat are two opposite ends of the temperature spectrum. Heat refers to the presence of thermal energy in an object, causing it to feel warm, while coldness is the absence of thermal energy, resulting in a sensation of coolness. Temperature is a measure of the average kinetic energy of the particles in a substance, with higher temperatures corresponding to more kinetic energy and vice versa.
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.
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 state of matter than has the least internal kinetic energy (the kinetic energy of all the internal particles relative to the center of mass of the system), or the least internal + macrosopic kinetic energy, is the same state as "Which state of matter has the least thermal energy?". (hint: it's not the gaseous state). However, if you are asking what state of matter has the least macroscopic kinetic energy: Every state of matter can have systems with zero macroscopic kinetic energy. So none of them (or perhaps all of them) have the "least" kinetic energy.
Final end of all energy lost is thermal energy. Thermal energy is the least valuable energy. The concept of entropy is rely on the loss of working capability of the system to the thermal energy. In general, the term for thermal energy lost can be called waste heat.
Thermal energy is the form of energy least available to accomplish cellular work, as it represents random kinetic energy associated with the movement of molecules that is not easily harnessed for specific cellular processes.
The phase of matter that has the least kinetic energy is the solid phase. You know that temperature is a measure of kinetic energy among molecules of a substance and solid is the phase of matter that occurs at the lowest temperature.
The least usable form of energy is thermal energy, such as low-temperature heat, because it is difficult to harness efficiently and convert into other forms of energy. Thermal energy is often dispersed and not easily concentrated or converted into useful work.
Particles have the most energy in the gas phase, where they have high kinetic energy and are further apart. In contrast, particles have the least energy in the solid phase, where they have the least freedom of movement and are held together in a fixed structure.
Coldness and heat are two opposite ends of the temperature spectrum. Heat refers to the presence of thermal energy in an object, causing it to feel warm, while coldness is the absence of thermal energy, resulting in a sensation of coolness. Temperature is a measure of the average kinetic energy of the particles in a substance, with higher temperatures corresponding to more kinetic energy and vice versa.
Temperature measures the average kinetic energy of the particles in a body, while thermal energy is the total kinetic energy of all the particles in a body. Two bodies at the same temperature can have different amounts of thermal energy depending on their size and mass. Temperature gives an indication of how fast the particles are moving, but not the total energy present.
As you might expect from the term "expansion", they get farther apart from each other - at least on average. They also tend to gain more vibrational energy, rotate faster (when able to) and move around faster in general.
The four stages of matter in order from least kinetic energy to most kinetic energy are solid, liquid, gas, and plasma. In a solid, particles have the least kinetic energy and are tightly packed together. In a plasma, particles have the most kinetic energy and are ionized.