well at 156 kgls the mirrors begin to angle auxtributly. this forms a slight arc and allows image distance to become negative.
Both the mirrors produce an virtual image when the object is placed in between the pole and focus . And also obviously both are a part of the category of spherical mirrors.
Well, first you need to look at the mirrors. Then you identify the image.
real and virtual images are formed by spherical mirror .
Concave mirrors bring the image to a focal point. Convex mirrors produce a diverging image - the further away from the mirror you are - the larger the magnification.
The minimum rays needed to form an image by a spherical mirror is two.
Plane Mirror And Other Spherical Mirrors Bulged Outside, Such As Convex Mirrors
Both the mirrors produce an virtual image when the object is placed in between the pole and focus . And also obviously both are a part of the category of spherical mirrors.
The nature of the image is not constant. It varies with the distance between the object and the mirror.
Well, first you need to look at the mirrors. Then you identify the image.
-A car's headlight, reflector lamps. -Concave mirrors can be used as makeup or shaving mirrors because an enlarged image can be obtained using a concave image. -Concave mirrors can also be mirrors used for dentists to see an enlarged image of a tooth.
If the lens equation yields a negative image distance, then the image is a virtual image on the same side of the lens as the object. If it yields a negative focal length, then the lens is a diverging lens rather than the converging lens in the illustration.
real and virtual images are formed by spherical mirror .
Concave mirrors bring the image to a focal point. Convex mirrors produce a diverging image - the further away from the mirror you are - the larger the magnification.
They have no mirror image.
Plane mirrors produce a virtual image.
The minimum rays needed to form an image by a spherical mirror is two.
A concave mirror the image will always be smaller then the actual image