a plain mirror does not have any convex or concave curve and thus the light that is reflected does not change in shape.
the object never changes, but the image (which is the object seen in the mirror) is not tangible and is only a picture of the object.
so the image and the object are the same because there is no distortion in a plain mirror.
false
true - apex
Because of the first law of thermodynamics.
same size, upright, and same distance
A plane (flat) mirror reflects an image which is the same size and shape, and colour as the object in front of the mirror. A concave mirror can produce a magnified image. If the image is in front of the mirror it is a real image; if behind it is a virtual (non-real) image. A real image can be cast upon a white the best) surface
Plane mirrors do not create images that can be placed on a screen, only concave mirrors can.
real and upright image
A plane mirror is a flat, as opposed to convex or concave, mirror.A plain mirror is just a ordinary mirror as used in a household. These are usually flat mirrors so they are also plane mirrors.Many households have small bathroom mirrors which magnify in this case they would be concave plain mirrors and not concave plane mirrors
reflection?
because the image formed in a plain mirror is not inveted
The same speed: the image will always appear to be at a point exactly behind the mirror as the object is in front.
same size, upright, and same distance
doppling
A plane (flat) mirror reflects an image which is the same size and shape, and colour as the object in front of the mirror. A concave mirror can produce a magnified image. If the image is in front of the mirror it is a real image; if behind it is a virtual (non-real) image. A real image can be cast upon a white the best) surface
Plane mirrors do not create images that can be placed on a screen, only concave mirrors can.
2 m/s
real and upright image
to see our face to make real image to make virtual image
Reflected.
mirrorsconcave (converging) -->)-virtual: enlarged upright image when DoDo>F-real: same size inverted image when Do=C-real: diminished (smaller) inverted image when Do>Cconvex (diverging) -->(-virtual: diminished when Do is anywhereplane (flat) -->l-same size virtualmeanings of lingoDi is distance of image from mirrorDo is distance of object mirrorC is center of curvatureF is focal point "this is between the center of curvature and mirror