Yes. All electromagnetic waves do.
In fact, all sound waves do too.
what is the parallel light rays reflect off each mirror below looks like with a ruler
The incident ray, the normal and the reflected ray are all in the same plane
This is because there are multiply incidences. therefore you can not say that all the incident rays and all the reflected rays lie in the same plane and if there is even one that does not lie in the same plane, snell's equality can not work
Law of Reflection
Angle of incidence is equal to the angle of reflection
Yes.
no It is definitely obeying both the basic laws of reflection. Only that on irregular reflection, all incident rays are at different angles which results in scattered reflected rays of light.
In doesn't affect how sad you are :)
The angle of reflection equals the angle of incidence. In regular reflection, parallel rays strike are reflected from smooth surface at the same angle in diffuse reflection, parallel rays strike and are reflected from a bumpy surface at different angles.
what is the parallel light rays reflect off each mirror below looks like with a ruler
The incident ray, the normal and the reflected ray are all in the same plane
Some baseball players were sunglasses that reflect the suns rays. If a ray of light could be observed approaching and reflecting off of a flat mirror, then the behavior of the light as it reflects would follow a predictable law known as the law of reflection.AnswerThey put a black streak below their eyes to reduce the glare of the sun.
You apply the law of reflection. The angle of incidence is equal to the angle of reflection. The angles are measured between the rays and the normal at the point of incidence, which means the line at right angles to the surface at that point.
no
This is because there are multiply incidences. therefore you can not say that all the incident rays and all the reflected rays lie in the same plane and if there is even one that does not lie in the same plane, snell's equality can not work
Angle of incidence is equal to the angle of reflection
law of reflection