They spread out.
A concave lens spreads light apart due to its diverging nature. When light rays pass through a concave lens, they refract in such a way that they diverge away from each other. This results in the spreading out of light rays when they pass through the concave lens.
A concave lens diverges light waves, causing them to spread out as they pass through the lens. This results in the image being smaller and located farther away from the lens than the actual object.
A diverging lens is also known as a concave lens. This type of lens causes light rays to diverge or spread out as they pass through it. It is thinner at the center than at the edges.
When light rays pass through a concave lens, they diverge or spread out. This causes the light rays to appear to have come from a virtual focus point on the same side as the light source. Concave lenses are used to correct nearsightedness by diverging the incoming light rays before they reach the eye.
A concave lens diverges light rays that pass through it, causing them to spread out. This spreading out of light results in the image appearing smaller when it reaches the eye. This is why objects viewed through a concave lens appear smaller than when viewed with the naked eye.
A concave lens spreads light apart due to its diverging nature. When light rays pass through a concave lens, they refract in such a way that they diverge away from each other. This results in the spreading out of light rays when they pass through the concave lens.
A concave lens diverges light waves, causing them to spread out as they pass through the lens. This results in the image being smaller and located farther away from the lens than the actual object.
A diverging lens is also known as a concave lens. This type of lens causes light rays to diverge or spread out as they pass through it. It is thinner at the center than at the edges.
When light rays pass through a concave lens, they diverge or spread out. This causes the light rays to appear to have come from a virtual focus point on the same side as the light source. Concave lenses are used to correct nearsightedness by diverging the incoming light rays before they reach the eye.
A concave lens diverges light rays that pass through it, causing them to spread out. This spreading out of light results in the image appearing smaller when it reaches the eye. This is why objects viewed through a concave lens appear smaller than when viewed with the naked eye.
When light rays pass through a concave lens, they diverge (spread out) rather than converge (come together). This causes the image formed by the concave lens to appear smaller and virtual (cannot be projected onto a screen). The lens is used to correct conditions like myopia (nearsightedness) by reducing the focusing power of the eye.
a concave lens diverges the light ray travelling in a straight parallel path.
A concave lens causes rays of light to diverge, meaning they spread apart as they pass through the lens. This results in a virtual image that is seen as if it is coming from a point behind the lens. The image formed by a concave lens is always upright and smaller in size compared to the object.
A concave lens is a lens that is thinner at the center than at the edges. It causes light rays to spread out, diverging as they pass through the lens. A prism is a transparent optical element with flat, polished surfaces that can refract, reflect, or disperse light.
Light rays refracted by a concave lens diverge (spread out) as they pass through the lens. This causes them to appear to originate from a virtual focal point located behind the lens. A concave lens is used to correct nearsightedness.
A concave lens is called a diverging lens because it causes light rays to spread out or diverge as they pass through it. This results in the rays appearing to come from a virtual focal point behind the lens, opposite to the direction of incident light.
A concave lens is diverging because the light rays passing through it are refracted away from each other due to the lens shape. This causes the rays to spread out when they pass through the lens, resulting in the image appearing smaller and further away.