the light rays will be directed into a focal point
When light hits a concave mirror parallel to the principal axis, the reflected light rays converge at the focal point of the mirror.
The mirror is a concave mirror. This behavior is a property of concave mirrors, where parallel rays of light are reflected and converge at the principal focus after reflection.
Mirrors reflect light, not refract it. When light hits a concave mirror, it converges to a point known as the focal point. Conversely, light spreading out from a point source will be reflected by a convex mirror, diverging and spreading out.
It is reflected back parallel to the principal axis. (apex)
When a ray of light hits a mirror, it gets reflected off the mirror's surface at the same angle that it approached the mirror. This is known as the law of reflection. The angle of incidence (the angle at which the light ray hits the mirror) is equal to the angle of reflection (the angle at which the reflected ray leaves the mirror).
It converges.
When light hits a concave mirror parallel to the principal axis, the reflected light rays converge at the focal point of the mirror.
The mirror is a concave mirror. This behavior is a property of concave mirrors, where parallel rays of light are reflected and converge at the principal focus after reflection.
Mirrors reflect light, not refract it. When light hits a concave mirror, it converges to a point known as the focal point. Conversely, light spreading out from a point source will be reflected by a convex mirror, diverging and spreading out.
If light hits a mirror at an angle it reflects back at you but it will make the image look bigger or smaller (if the mirror is concave or convex). If it is a flat plane mirror the image is the same but if your holding something it will be on the opposite side
By omed, The mirror breaks and the light turns blue.
It is reflected back parallel to the principal axis. (apex)
When a ray of light hits a mirror, it gets reflected off the mirror's surface at the same angle that it approached the mirror. This is known as the law of reflection. The angle of incidence (the angle at which the light ray hits the mirror) is equal to the angle of reflection (the angle at which the reflected ray leaves the mirror).
When light from a torch hits a mirror, most of the light gets reflected back in a predictable manner due to the smooth surface of the mirror. The angle of incidence (angle at which the light hits the mirror) equals the angle of reflection (angle at which the light bounces off the mirror). This reflection of light allows us to see our reflection in the mirror.
It has the time of its life.
When a ray of light hits a mirror, it is reflected back at an equal angle from the normal (a line perpendicular to the surface of the mirror). This is known as the law of reflection.
The way light is reflected is different in a concave mirror depending on the position and distance from the object. when light hits the concave mirror when it is near the object, the rays are scattered and it forms a virtual image, i.e it does not come on the screen. the image will be erect and higly magnified. When it is taken further from the object, the image becomes inverted and real, i.e it can be seen on a screen, and will still be magnified.