Light rays that strike a mirror are reflected according to the law of reflection, where the angle of incidence is equal to the angle of reflection. This is what allows us to see our reflection in a mirror.
A convex mirror will make light rays more divergent. This is because when light rays strike a convex mirror, they will reflect outwards in different directions, causing them to spread out or diverge.
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.
A convex mirror forms an image by reflecting light rays divergently. When parallel rays of light strike a convex mirror, they are reflected in such a way that they appear to originate from a point behind the mirror known as the focal point. This results in a virtual image that is upright, diminished in size, and located behind the mirror.
Concave mirrors form real images when the object is placed beyond the focal point of the mirror. Light rays reflecting off the mirror converge at a point in front of the mirror, creating a real image. This occurs because the concave mirror is designed to converge light rays that strike it.
A diverging mirror, also known as a concave mirror, is a mirror that curves inward. It diverges light rays that strike it, causing them to spread out. It forms virtual images that are upright and smaller than the object.
A convex mirror will make light rays more divergent. This is because when light rays strike a convex mirror, they will reflect outwards in different directions, causing them to spread out or diverge.
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.
A convex mirror forms an image by reflecting light rays divergently. When parallel rays of light strike a convex mirror, they are reflected in such a way that they appear to originate from a point behind the mirror known as the focal point. This results in a virtual image that is upright, diminished in size, and located behind the mirror.
Concave mirrors form real images when the object is placed beyond the focal point of the mirror. Light rays reflecting off the mirror converge at a point in front of the mirror, creating a real image. This occurs because the concave mirror is designed to converge light rays that strike it.
A concave mirror will diverge light rays if they are incident from the object beyond the focal point. This type of mirror causes light rays to spread apart after reflection, creating a virtual image that appears behind the mirror.
light rays
A diverging mirror, also known as a concave mirror, is a mirror that curves inward. It diverges light rays that strike it, causing them to spread out. It forms virtual images that are upright and smaller than the object.
The light rays that leave a mirror are called reflected rays. They are the result of light bouncing off the mirror's surface at an equal angle to the incident angle.
Yes, A shiny metal plate is also said to be a mirror because reflection occurs when light rays strike a shiny surface or a mirror. By: Aisha Ijaz
A concave mirror will reflect light rays that strike its surface towards a focal point in front of the mirror. The mirror can form both real and virtual images depending on the position of the object in relation to the focal point.
Light reflects off a plane mirror by obeying the law of reflection, which states that the angle of incidence is equal to the angle of reflection. When light rays strike the mirror surface, they bounce off in a way that preserves the direction of the incoming light rays.
Yes, A shiny metal plate is also said to be a mirror because reflection occurs when light rays strike a shiny surface or a mirror. By: Aisha Ijaz