sound
The kinetic energy in the oxygen particles are lowered.
A very very tiny amount of matter is removed and a very large amount of energy is produced.
Though risk factors are not necessarily equated with the causes of leukemia, they may help shed some light on the disease. Some research suggests that exposure to both low-energy radiation and high-energy radiation may be causes of leukemia. Scientists are continuing to investigate whether this is fact, and if so, how it can be applied to treatment and prevention.
1. Gases 2.Particles in motion 3. 4. Particle Energy Sorry but these are the right ones just have not found number 3.
It means that energy can change between different forms. Take for example a car sitting outside during warm and sunny day. The light energy produced by the sun enters through the car's windows and changes into heat energy. When someone enters the car and notices it is warmer in the car than outside the car, the increased temperature inside the car is due to the sun's light energy changing into heat energy.
sound
Thermal energy causes particles to vibrate. When thermal energy is transferred to an object, its particles gain kinetic energy, causing them to move and vibrate.
All states of matter have vibrating particles, but solids' particles vibrate only.
Heat energy from the source causes the particles to oscillate (vibrate) this chains and causes neighbouring particles to vibrate.
Heat is a form of energy, you are adding energy to the system, this causes the particles to vibrate faster.
Thermal energy is produced when the kinetic energy of particles in a material increases due to an increase in temperature. This increase in kinetic energy causes the particles to vibrate and move faster, generating heat energy in the process.
When sound is produced, there is a conversion of mechanical energy from the source (such as vocal cords vibrating or an instrument being played) into sound energy in the form of pressure waves in the air. This process involves the transfer of kinetic energy between the particles in the medium through which the sound travels.
A mechanical wave is formed when a source of energy causes particles in a medium to vibrate. Energy is transferred through the medium by the movement of the particles. Examples include sound waves and seismic waves.
Particles vibrate because they possess thermal energy, which causes them to constantly move and collide with each other. This movement results in vibrations as the particles interact with each other and their surroundings.
Particles in matter move back and forth due to thermal energy, which causes them to vibrate. This vibration is a result of the kinetic energy of the particles constantly changing direction.
vibrate or oscillate. This vibration is then transferred through the medium, causing particles in the medium to also vibrate. This transfer of energy produces the mechanical wave.
When thermal energy is added to matter, the particles within the matter begin to vibrate more rapidly and with greater energy. This increased thermal energy causes the particles to move more freely, which can lead to changes in state (such as melting or boiling) or expansion of the matter.