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the kinetic energy of a particle depends on the movement of each particle;that is the mass of the particle and the velocity of each particle.the particles of each matter or substance has a different heat resistance. when the temperature exceeds the resistance of the particles the movement of the particles would increase drastically.therefore making the velocity more and the mass lesser.............
KE=1/2*m*v*v
so when the temperature increases the mass is reduced and the velocity increases.
What else can I help you with?
What is the relationship between the kinetic energy (ke) of a particle and its temperature (T) according to the formula ke 3/2kt?
The relationship between the kinetic energy (ke) of a particle and its temperature (T) is described by the formula ke 3/2kt. This formula shows that the kinetic energy of a particle is directly proportional to its temperature, with the constant k representing the Boltzmann constant.
How are temperature and kinetic energy related?
Matter is made up of particles (atoms and molecules); temperature is closely related to the average kinetic energy per particle. More precisely, the average kinetic energy per particle per degree of freedom.
How does particle motion affect temperature?
As particles move faster, they have higher kinetic energy, which translates to higher temperature. When particles collide and transfer energy, it can raise the overall temperature of the system. This motion and energy transfer are fundamental to understanding how temperature changes in a system.
How is the temperature of an object related to its kinetic energy?
The temperature of an object is directly related to its average kinetic energy. As the temperature of the object increases, the average kinetic energy of its particles also increases. This is because temperature is a measure of the average kinetic energy of the particles in an object.
How does temperature affect the relationship between particle motion and thermal energy?
Temperature directly affects the speed and movement of particles in a substance. As temperature increases, the particles move faster and have more kinetic energy, which is a form of thermal energy. This means that higher temperatures lead to greater particle motion and increased thermal energy in a substance.
What is the average kinetic energy of a particle called?
The average kinetic energy of a particle is called its temperature. Temperature is a measure of the average kinetic energy of the particles within a substance.
How does the speed of particle affect its kinetic energy?
The higher the speed the more the kinetic energy.
What is the Measure of a particle's average kinetic energy?
temperature
What is the measurement of the average kinetic energy of the molecules of a substance?
temperature is the average kinetic energy of a particle
How is temperature of an object related to its kinetic energy?
Temperature is the average kinetic energy of each individual particle inside an object.
What particle property changes with change in temperature?
Temperature affects the average kinetic energy of particles. As temperature increases, particles have higher kinetic energy, which can impact their speed, collisions, and interactions with other particles.
What is the relationship between temperature and molecular and kinetic energy?
The definition of temperature is the average kinetic energy of a molecule/solid/whatever
When the temperature of a particle of matter rises there is an increase in what?
kinetic energy:)
When the temperature of a particle of matter rises there is an increase in the?
kinetic energy:)
What is a measure of the average kinetic energy of the particle of a substance.?
temperature
How is the kinetic energy of a constituent particle in any matter affected by a change in temperature?
As temperature is increased the kinetic energy of the constituent particles of matter increases.When temperature decreases the kinetic energy of them decreases. This is because temperature, or rather heat, is itself energy
What is the relationship between the kinetic energy (ke) of a particle and its temperature (T) according to the formula ke 3/2kt?
The relationship between the kinetic energy (ke) of a particle and its temperature (T) is described by the formula ke 3/2kt. This formula shows that the kinetic energy of a particle is directly proportional to its temperature, with the constant k representing the Boltzmann constant.
