Want this question answered?
optical path = μ x geometricalpath
Of course. A reflection of any symmetric shape about a line perpendicular to its axis of symmetry will be a rotation of 180 degrees around the point on its axis of symmetry which is halfway between the pre-image and the image.
A symmetrical shape is said to have line symmetry. A shape that has line symmetry can have one or more lines of symmetry
No.
reflexive symmetry- It is easy to recognize , because one half is the reflection of other Half
optical path = μ x geometricalpath
Of course. A reflection of any symmetric shape about a line perpendicular to its axis of symmetry will be a rotation of 180 degrees around the point on its axis of symmetry which is halfway between the pre-image and the image.
If there is a rotation, "angular velocity" and "angular frequency" is the same thing. However, "angular frequency" can also refer to situations where there is no rotation.
The weird thing about the Sun's rotation - as compared to Earth's rotation - is precisely that it is a differential rotation. That means that at the equator, the Sun rotates faster than near the poles. There is some recent evidence that the inner and outer cores of Earth do indeed spin at different rates and at different rates compared with the rest of the planet.
Approximate Symmetry is approximately symmetrical. Regular Symmetry is Symmetrical for sure.
Lines of symmetry are 2 dimensional. Planes of symmetry are 3D.
A symmetrical shape is said to have line symmetry. A shape that has line symmetry can have one or more lines of symmetry
No.
difference between relation sehema and relation instance in dbms
The Earth's rotation. The relation between the Earth (or a person on the Earth) and the position of the stars makes it appear that the stars are in a different position as the night progresses.
relation between telsa and gauss
there is/ was no relation between them .