The angle formed from the ray approaching the mirror and the normal (imaginary line that's perpendicular to the mirror) is equal to the angle formed by the reflected ray and the normal.
See link below for "Image"...
In this image, angle I and angle R are equal
The angle is the same but on the other side of the perpendicular to the surface of the mirror at the point at which the light hits the mirror.
The distance of the object from the mirror line should equal the distance of the image from the mirror line.
a regular
Set up a light source that has narrow beam (a laser pointer is perfect for this).Point it at a mirror,measure the angle of incidence and of reflection.rotate the mirror,measure the angles,continue through many angles,tabulate and graph the results.
If you're talking about a flat mirror, yes. Both angles are measured in relation to the mirror's normal. A flat mirror's normal is the perpendicular line that extends from the point of contact from the beam of light on the mirror outward.
With a mirror.
if it is a normal mirror the light we reflect of the mirror from a different angle the angle on which it comes from is the same angles as it goes out.
surface which reflects angles of incidence.
The angle is the same but on the other side of the perpendicular to the surface of the mirror at the point at which the light hits the mirror.
beam
The distance of the object from the mirror line should equal the distance of the image from the mirror line.
The sides of a fish tank look like a mirror when observed from specific angles because of glass refraction. When the light is reflected off of the glass at certain angles, it looks mirror like.
the light is reflected back at different angles because the mirror is curved
In a plane mirror, the image size is of same size as that of the object, but in the rear view mirror, the image size is smaller than that of the mirror.
one is more diminished than the other
The car you just passed in your rear view mirror (not your side mirror).
a crack