infinite number of images are formed in both the mirrors if the mirrors are kept parallel
Infinite.
If 2 mirrors are placed perpendicular to each other then infinite no of images will be formed because image formed by one mirror will act as the object for the other and vice verse.
Three images will be formed
3 Images
infinite number of images are formed in both the mirrors if the mirrors are kept parallel
Infinite
Infinite.
If 2 mirrors are placed perpendicular to each other then infinite no of images will be formed because image formed by one mirror will act as the object for the other and vice verse.
If the mirrors are exactly parallel - there will be an infinite number of images, as they will be reflected indefinitely.
To determine the number of images formed by a mirror, you need to consider the distance of the object from the mirror and the type of mirror (concave or convex). For a plane mirror, only one image is formed which is virtual and upright. For concave and convex mirrors, the number of images formed can vary depending on the position of the object relative to the focal point, center of curvature, and the mirror's surface.
Because - if the mirrors are exactly parallel - they will reflect each others image indefinitely.
The paradox of mirrors refers to the infinite reflections that occur when standing between two parallel mirrors facing each other. The reflections create a seemingly endless tunnel of images, giving the illusion of infinite space despite the limited physical dimensions of the mirrors.
When two mirrors are parallel to each other, an infinite number of images are formed due to the multiple reflections of an object between the mirrors. Each reflection creates a new image that is a mirror image of the previous one.
No. They will look different.
To find out how many images are formed when plane mirrors are tilted at an angle, use the formula N=360/a-1 , wherein N is the number of images formed and a is the given angle. So in this case, N=360/30-1, will result to N=11 images formed.
we can see infinite images.