A converging lens bends parallel rays inwards towards a focal point.
A concave lens bends light away from its center, diverging the light rays.
A lens brings diverging light rays to parallel tracks by refracting the light rays as they pass through the lens. The shape of the lens causes the light rays to converge and then diverge again, ultimately causing them to travel in parallel paths.
A convex lens bends light by causing parallel rays of light to converge to a focal point after passing through the lens. This bending occurs due to the curvature of the lens surfaces, which causes light rays to refract or change direction as they pass through the lens. The degree of bending depends on the thickness and curvature of the lens.
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Concave lens bends light inward. It is thinner at the center and thicker at the edges, causing light rays passing through it to diverge.
It bends the rays light which pass through it.
A concave lens bends light away from its center, diverging the light rays.
A lens brings diverging light rays to parallel tracks by refracting the light rays as they pass through the lens. The shape of the lens causes the light rays to converge and then diverge again, ultimately causing them to travel in parallel paths.
A convex lens bends light by causing parallel rays of light to converge to a focal point after passing through the lens. This bending occurs due to the curvature of the lens surfaces, which causes light rays to refract or change direction as they pass through the lens. The degree of bending depends on the thickness and curvature of the lens.
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The lens bends the light rays to focus them on the retina.
Concave lens bends light inward. It is thinner at the center and thicker at the edges, causing light rays passing through it to diverge.
It depends on the lens. Assuming parallel rays entering the lens: Convex lens - they converge, Concave lens - they dinverge.
The Lens is the part of the eye that bends light rays .
No, concave lenses cause light rays to diverge outward when passing through them. This is due to the lens being thinner at the center than at the edges, causing light rays to spread out.
Parallel lines of light rays hitting a convex lens will converge towards a single point after passing through the lens. This point is known as the focal point, where the light rays meet and diverge after passing through the lens.
-- The distance from the center of the lens to the plane in which the rays converge is the 'focal length' of the lens. -- If the rays emanated from one point on an object, then rays from all the other points on the object do the same thing, and a real image is formed.