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how polarization of light can be demonstrated on a parallel arrangement of crystal explain
A birefringence is a splitting of a ray of light into two parallel rays of perpendicular polarization by passage through an optically anistropic medium.
Yes. A ray of light striking a mirror leaves at a the same angle to the surface as it hits, but as measured from the opposite side of the surface. As measured from the original side, the exit angle is complementary (180 degrees minus the incident angle). For perpendicular rays, the light leaves perpendicularly, back in the direction it came from (180-90=90).
mode theory assumes light to be a wave, but ray theory does not assume light to be either a wave or particle. ray theory is used to calculate properties like magnification or distance to the object or image in an optical system, where as mode theory is used find bandwidth, reflection coefficients and parallel polarization.
Forces which are parallel and acting in same direction are called like parallel forces. Forces which are parallel and acting in opposite direction are called unlike parallel forces.
how polarization of light can be demonstrated on a parallel arrangement of crystal explain
The vibration of the electric field in radiation is perpendicular to the direction of the wave. This provides 360 degrees of for the vibration to occur in. Polarization is the angle of the 360 degrees that vibration occurs at. If the ligth is coming at yu like the face of a clock, the angle could be at 3:00, 6:00 or 9:00 or any angle. Some crystals rotate the angle of polarization, that is light goes in at 3:00 and comes out at 5:00. Normally reflection by a surface will absorb polarization not parallel to the surface, leaving the wve polarized parallel to the surface.
what i think no. metamorphism can't make crystals in parallel lines.
There are 3240 arrangements.
40,320
chalcedony
Yes
A birefringence is a splitting of a ray of light into two parallel rays of perpendicular polarization by passage through an optically anistropic medium.
I think its metamorphic
The rocks tend to spilt along parallel planes defined by distribution and parallel arrangment of platy mineral crystals.
Zero.
parallel lighting (alternate routing)