the concept that tiny particles in constant, random motion make up all matter
kinetic theory.
Mechanical energy depend on motion and height. For example- a flying bird.
The kinetic theory of matter states that matter is made up of tiny particles in constant motion. These particles have kinetic energy that increases with temperature, causing them to move faster.
All matter is made up of 'atoms', which are generally treated as tiny particles, although they have been shown to also have the properties of waves (just like light has both particle and wave nature). They are constantly in motion, and move faster in matter at a higher temperature. The temperature at which this motion is zero is -273C or 0K, absolute zero and is impossible to achieve.
Particles that make up matter are in a state of constant motion.
True. The particles that make up matter are in constant motion due to their kinetic energy. This motion can vary in speed and direction depending on factors such as temperature and pressure.
No, particles that make up matter are not always stationary. At the atomic and subatomic levels, particles are constantly in motion due to factors like thermal energy and quantum mechanical effects. This motion contributes to properties like temperature and pressure in matter.
the concept that tiny particles in constant, random motion make up all matter
kinetic theory.
Mechanical energy depend on motion and height. For example- a flying bird.
The answer is gas and it involves the Kinetic molecular theory which is a model used to predict gas behavior. Molecules or atoms
The kinetic theory of matter states that matter is made up of tiny particles in constant motion. These particles have kinetic energy that increases with temperature, causing them to move faster.
The total energy of the particles that make up any matter is the sum of their kinetic energy (due to motion) and potential energy (due to interactions). This includes the energy associated with the particles' mass as well, as described by Einstein's equation E=mc^2.
Particles within are limited to vibrational motion, unlike the particles which make up liquids which can have vibrational & translational motion, and gaseous particles which have vibrational, translational and rotational motion.
All matter is made up of 'atoms', which are generally treated as tiny particles, although they have been shown to also have the properties of waves (just like light has both particle and wave nature). They are constantly in motion, and move faster in matter at a higher temperature. The temperature at which this motion is zero is -273C or 0K, absolute zero and is impossible to achieve.
No. Light is a form of energy. Matter has mass. Light has no mass.