Reflection.
When light falls on a smooth mirror, it undergoes a process called specular reflection, where the light is reflected at the same angle as it hits the mirror's surface. This results in a clear and sharp reflection of objects in the mirror.
No, a mirror works by reflecting light. When light hits the smooth surface of a mirror, it bounces off in a predictable way, creating an image of what is in front of it. Refraction occurs when light passes through a transparent medium and changes speed, such as in glass or water.
An incident ray is the ray of light that shines on a mirror. This is the ray that strikes the mirror's surface.
The beam of light that travels towards the mirror is called the incident ray.
The ray of light that strikes a mirror is called an incident ray.
When light falls on a smooth mirror, it undergoes a process called specular reflection, where the light is reflected at the same angle as it hits the mirror's surface. This results in a clear and sharp reflection of objects in the mirror.
No, a mirror works by reflecting light. When light hits the smooth surface of a mirror, it bounces off in a predictable way, creating an image of what is in front of it. Refraction occurs when light passes through a transparent medium and changes speed, such as in glass or water.
An incident ray is the ray of light that shines on a mirror. This is the ray that strikes the mirror's surface.
The beam of light that travels towards the mirror is called the incident ray.
The ray of light that hits a mirror is called the incident ray.
The ray of light that strikes a mirror is called an incident ray.
A plane mirror shows lateral inversion, where objects appear reversed from left to right. This phenomenon occurs because the mirror reflects light rays in a way that causes the image to be flipped horizontally.
An incoming light ray before it hits a mirror is called an incident ray.
A convergent beam of light incident on a plane mirror will form a real and inverted image.
The mirror that causes parallel incident rays of light to converge at the focus is a concave mirror. This type of mirror is curved inward and has a reflective surface that causes light rays to converge towards a focal point when they strike the mirror parallel to its principal axis.
Nothing. The focal length is defined as point where all of the light converges after passing through the lens ( for a convex mirror)and only depends on the mirror's curvature. So changing the incident light ray will cause no change in the focal length of the mirror.
The ray of light hitting a mirror is called an incident ray. It represents the path that light takes before it reflects off the mirror's surface.