At angle of 30 two mirrors will give nine reflected images.
45
Infinite.
23
1/5
Opposite each other
If the mirrors are exactly parallel - there will be an infinite number of images, as they will be reflected indefinitely.
In parallel mirrors, each reflection creates a new image that is reflected again, leading to an infinite repetition of reflections. As light bounces back and forth between the mirrors, it creates an infinite series of reflected images. This process continues due to the nature of reflection where light bounces off surfaces at equal angles.
Funny mirrors are distorted due to their curved surfaces that bend and reflect light in unusual ways, resulting in distorted and exaggerated reflections of objects in front of them. The shape and curvature of the mirror cause light rays to be reflected at different angles, creating funhouse effects such as stretching, shrinking, or flipping the reflected images.
Plane mirrors and convex mirrors are unable to form real images because they do not converge reflected light to a point. In a plane mirror, the reflected rays stay parallel, while in a convex mirror, the reflected rays diverge. This divergence or parallelism prevents the formation of a real image, which is the convergence of light rays to a point.
Convex mirrors used for security purposes produce virtual images, not real images. These images are smaller and upright compared to the object being reflected. This helps provide a wider field of view for surveillance.
You are seeing a reflection and you are seeing a reflection of the reflection.
Plane mirrors produce virtual and upright images that are the same size as the object being reflected. The images are laterally inverted, meaning they are flipped horizontally.
kaleidoscope is a thing/object which works on the principle of multiple reflections. the three plain mirrors reflect light that,s why we can see paterns.
As the reflected image bounces back and forth between the two mirrors, each reflection results in a smaller image due to the angle of reflection. This creates the illusion of the image appearing progressively smaller as it moves further away from the mirrors.
With two mirrors at right angles you will have 3 (360/90 - 1) images of an object. Two of these are primary and the third is secondary. Some light rays from the object bounce of each of the mirrors to your eye to form the two primary images. But there are other rays that bounce off a mirror onto the second mirror before they get to you. This produced the secondary image.
45
The answer depends on the angle between the mirrors. The distance between the mirrors does not, in theory, make any difference. If the angle between the mirrors is x degrees, then the theoretical number of images is (360/x)- 1 which is rounded down. In practice, minor defects in the mirrors, refraction, total internal refraction, absorptions, scattering etc will reduce the number of images.The answer depends on the angle between the mirrors. The distance between the mirrors does not, in theory, make any difference. If the angle between the mirrors is x degrees, then the theoretical number of images is (360/x)- 1 which is rounded down. In practice, minor defects in the mirrors, refraction, total internal refraction, absorptions, scattering etc will reduce the number of images.The answer depends on the angle between the mirrors. The distance between the mirrors does not, in theory, make any difference. If the angle between the mirrors is x degrees, then the theoretical number of images is (360/x)- 1 which is rounded down. In practice, minor defects in the mirrors, refraction, total internal refraction, absorptions, scattering etc will reduce the number of images.The answer depends on the angle between the mirrors. The distance between the mirrors does not, in theory, make any difference. If the angle between the mirrors is x degrees, then the theoretical number of images is (360/x)- 1 which is rounded down. In practice, minor defects in the mirrors, refraction, total internal refraction, absorptions, scattering etc will reduce the number of images.