Yes, light rays can converge when they pass through a converging lens or reflect off a concave mirror. In such cases, the light rays come together at a focal point after being refracted or reflected, forming a real image.
The focal point.Other answersWhen rays of light converge? I think it is called the "refraction." :)focal point ....would be preferredrefraction is more why it changes
Light rays converge as well as diverge. it depends upon the type of lens or mirror you pass it through. A concave lens or a convex mirror diverges the light whereas a convex lens or a concave mirror converges the light rays!
They make the light rays converge to a point. Parallel rays converge at the focal point of the lens
When light rays meet, they can either be absorbed, transmitted, or reflected. If the light rays converge at a single point, they form an image. This image can be real, where the rays actually converge, or virtual, where they appear to converge.
The condenser-- when answering for a microscope!
They make the light rays converge to a point. Parallel rays converge at the focal point of the lens
The focal point.Other answersWhen rays of light converge? I think it is called the "refraction." :)focal point ....would be preferredrefraction is more why it changes
Light rays converge as well as diverge. it depends upon the type of lens or mirror you pass it through. A concave lens or a convex mirror diverges the light whereas a convex lens or a concave mirror converges the light rays!
They make the light rays converge to a point. Parallel rays converge at the focal point of the lens
When light rays meet, they can either be absorbed, transmitted, or reflected. If the light rays converge at a single point, they form an image. This image can be real, where the rays actually converge, or virtual, where they appear to converge.
The condenser-- when answering for a microscope!
Lenses interact with light by refracting it, which means bending the light rays as they pass through the lens. This bending of light helps converge or diverge the light rays to form an image, depending on the shape of the lens. Convex lenses converge light rays to a focal point, while concave lenses diverge light rays.
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 lens.
Light rays converge at concave lenses, creating a real image, and at convex lenses outside the focal point, forming a virtual image. In both cases, the convergence of light rays leads to the formation of an image.
A convex lens bulges outwards and causes light rays to meet or converge at a focal point. This type of lens causes parallel rays to be focused down to a point.
The focal length of a converging lens is directly related to its ability to converge light rays to a single point. A shorter focal length means the lens is more curved, which allows it to bend light more strongly and converge the rays to a single point more quickly. Conversely, a longer focal length means the lens is less curved and will converge the light rays more gradually.