Light rays that never meet are called parallel rays. These rays travel in the same direction without intersecting or converging at any point. This property makes them useful in physics and optics for analyzing how light behaves.
When light rays refract away from the optical axis and never meet, it is called diverging or negative refraction. This occurs when light passes through a concave lens or a prism, causing the rays to spread out rather than converge at a focal point.
The point where light rays meet is called the focal point.
Because a concave lens diverges light rays, they appear to come from a virtual focal point where the rays appear to originate without actually meeting. This property allows concave lenses to create virtual images that are upright and diminished in size compared to the object.
An image that is formed when light rays meet is called a real image. This type of image is formed when light rays converge to a point either on a screen or a surface.
When light rays meet, an image is formed where the rays converge or intersect. This can result in a real or virtual image, depending on the type of optical system involved.
When light rays refract away from the optical axis and never meet, it is called diverging or negative refraction. This occurs when light passes through a concave lens or a prism, causing the rays to spread out rather than converge at a focal point.
The point where light rays meet is called the focal point.
Because when you extend the light rays, they diverge and never meet. so you must always extend the light rays back behind the object, this will always result in the image being upright and erect. Meaning it will always be virtual, never real.
Because the light rays spread out & never meet the focal point
If passed through a convex lense, then yes the parallel rays will meet.
Because a concave lens diverges light rays, they appear to come from a virtual focal point where the rays appear to originate without actually meeting. This property allows concave lenses to create virtual images that are upright and diminished in size compared to the object.
An image that is formed when light rays meet is called a real image. This type of image is formed when light rays converge to a point either on a screen or a surface.
When light rays meet, an image is formed where the rays converge or intersect. This can result in a real or virtual image, depending on the type of optical system involved.
The location where light rays meet after reflecting from a concave mirror is called the focal point.
The image formed when light rays actually meet is called a real image. This type of image can be projected onto a screen and is formed when the rays of light actually converge at a point.
Converging light rays are light rays that are moving towards each other and eventually meet at a single point.
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.