Converging. Tip: look at the pictures and read : http://en.wikipedia.org/wiki/Lens_(optics)
A convex lens can converge a beam of parallel rays to a point on the other side of the lens. It is useful for reflecting and transmitting light.
Light travelling through a concave lens will spread out. In most optical systems that use a concave lens, such as a telescope that needs to magnify the focal plane image, this is a desirable effect.
When light rays travel parallel to the optical axis and pass through a convex lens, they converge at a focal point on the opposite side of the lens. This is due to the convex shape of the lens causing the light rays to refract towards the center of the lens. The point at which the light rays converge is known as the focal point, and the distance between the lens and the focal point is called the focal length. This phenomenon is governed by the lens equation, which relates the object distance, image distance, and focal length of the lens.
projector have concave or convex
concave mirror and convex lens can be used to focus light rays. they are also called converging mirror and lens respectively. They focus the light at a distance of its focal length.
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.
To produce a parallel beam of light using a convex lens and an electric lamp, you would place the lamp at the focal point of the convex lens. This will cause the light rays emitted by the lamp to become parallel after passing through the lens. Adjust the distance between the lamp and the lens until the light converges at the focal point and then diverges as a parallel beam.
A parallel beam of light coming from an infinite source when passed through a convex lens such that the refractive index of medium is less than the refractive index of lens the light will suffer deviation and the rays will converge at a point called focus of the lens on the opposite side where the rays have been coming. The image will be highly diminished as all the rays converge at a point.
Parallel light rays converge at a focal point after passing through a convex lens. This causes the rays to converge and form a real or virtual image. The exact location of the image depends on the distance of the object from the lens.
A convex lens is called a converging lens because it converges or brings parallel rays of light together at a focal point after passing through the lens. This results in the rays coming together and converging at a point on the other side of the lens.
The focal distance of a convex lens is always positive. It is the distance between the lens and the focal point when light rays are parallel and converge after passing through the lens.
when a beam of light is passed through the convex lens it converges the beam of ligth.hence convex lens is called a converging lens.
A convex lens acts as a diverging lens when the light passing through it diverges rather than converges. This typically occurs when the object is located very close to the lens or when the light rays are not parallel to begin with.
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.
A convex lens can converge a beam of parallel rays to a point on the other side of the lens. It is useful for reflecting and transmitting light.
No, not all light waves that strike a convex lens pass through the focal point. Light waves that are parallel to the principal axis will pass through the focal point after refraction, while light waves that strike the lens at different angles will converge at different points along the focal plane.
A converging lens, such as a convex lens, has a focal point where parallel rays of light converge after passing through the lens. This focal point is where the image of an object placed at infinity will be formed.