Intensity (brightness) and energy (frequency).
brightnesss
Polarization and Interference confirm light is a wave.
Light (electromagnetic radiation) forms a continuous spectrum there are no two main types.
In some experiments, light appeared to have wave properties, but in others, it appeared to have particle properties. The two ideas were believed to be in conflict - light was believed to be either one or the other. However, today it is accepted that light has both particle and wave properties.
Light behaves in TWO ways. It has the properties of BOTH Waves and Particles in its motion and transmission.
brightness and size - yousaf
Polarization and Interference confirm light is a wave.
it is hydrogen and electrons
Light (electromagnetic radiation) forms a continuous spectrum there are no two main types.
The wave model of light and the particle model of light.
In some experiments, light appeared to have wave properties, but in others, it appeared to have particle properties. The two ideas were believed to be in conflict - light was believed to be either one or the other. However, today it is accepted that light has both particle and wave properties.
By properties they are Thermosetting plastics and Thermoplastics
It is light and strong
Light behaves in TWO ways. It has the properties of BOTH Waves and Particles in its motion and transmission.
Their sides are proportional and their interior angles are the same
brightness and size - yousaf
Light possesses both properties of a wave and a particle. As a wave it is an oscillating electric and magnetic field. As a particle, light is a packet of energy that is treated as a point particle that does not have an electric field without a charge.
Ware the main properties of parallels and meridians