Light waves are fairly small, compared to our everyday experience.
It "is" neither; however, light interference is related to light's wave-like properties, not to its particle-like properties. Interference is something that affects all sorts of waves.
Yes, all waves create interference (such as light waves)
The interference of light refers to a phenomenon whereby two waves superpose to form a resultant wave of lower or greater amplitude.
Young's experiment aimed at observing interference of light waves. To observe clear interference patterns it is necessary to use monochromatic sources. Using monochromatic sources are coherent with constant phase difference so the interference pattern remains same on screen with passage of time. But using just any source will give a changing phase difference and a changing interference pattern which is difficult to observe.
To see the interference paterns that light will create then put a light beam through a small grate of slit. This when light is behaving as a stream of particles
It shows that light behaves as a wave phenomenon. Interference cannot be explained using a particle theory. http://www.physicsclassroom.com/class/waves/Lesson-3/Interference-of-Waves
INTERFERENCE IS THE MODIFICATION IN THE DISRIBUTION OF LIGHT DUE TO THE SUPERPOSITION OF TWO OR MORE LIGHT WAVES DIFFRACTION IS THE BENDING OF LIGHT WAVES ACROSS THE EDGES OF AN OBSTACLE AND THEIR ENCROACHMENT INTO THEIR GEOMETRICAL SHADOW
It "is" neither; however, light interference is related to light's wave-like properties, not to its particle-like properties. Interference is something that affects all sorts of waves.
Diffraction is a typical phenomenon for all sorts of waves. So is interference - another clue that light is made of waves.
Yes, all waves create interference (such as light waves)
The interference of light refers to a phenomenon whereby two waves superpose to form a resultant wave of lower or greater amplitude.
Young's experiment aimed at observing interference of light waves. To observe clear interference patterns it is necessary to use monochromatic sources. Using monochromatic sources are coherent with constant phase difference so the interference pattern remains same on screen with passage of time. But using just any source will give a changing phase difference and a changing interference pattern which is difficult to observe.
No. We observe the Doppler Effect in all forms of waves, including sound waves and all forms of electromagnetic radiation.
To see the interference paterns that light will create then put a light beam through a small grate of slit. This when light is behaving as a stream of particles
Interference. Constructive Interference, which is where the waves increase amplitudes and troughs when they overlap. Destructive Interference, which is where the waves cancel each other out when they overlap.
Interference effects can be observed with all types of waves, for example, light A simple form of interference pattern is obtained if two plane waves of the same Optical interference between two point sources for different wavelengths and
Constructive