Moreover, this kind of lenses has the ability to converge a beam of light coming from outside and focus it to a point on the other side. We call this point as the focus. Further, the distance which is between the centre of the lens to the focus is known as the focal length of the convex lens.

Convexmirror

An optical lens is usually composed of two spherical surfaces. If those surfaces are bent outwards, then we call that lens a biconvex lens or simply convex lens.  These lenses are thicker at the centre and thinner at the edges.

After that, we have a double convex lens which curves outside from both sides. We also refer to it as a biconvex lens or just convex. Further, they have a shorter focal length than plano-convex lenses of equal diameter and surface radius.

When the object is at the focal point, then an image is at infinity and it is real, inverted and magnified. Finally, when the object is between the focal point and the centre of curvature, then the image which forms beyond the imaginary point and behind the object is virtual and magnified.

Convex lensray diagram

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After that, you see that a simple type of these lenses may focus light into an image, however, that image will not be of high quality. Thus, to correct the distortions and aberrations, it will be better if we combine both kinds of lenses.

We use these types of lenses for a wide range of purposes in our daily lives. For instance, the prime example is the lens in the human eyes. This is the most common use of lens which helps us in seeing better.

As many optical devices need longer focal lengths, the double convex lenses are more preferable. We use them for projector, monocular, telescope, cameras and more. Further, it creates the virtual image for the human eye and the real image for photography. Next, we have a concave-convex lens which curves inwards from one side and outwards from one side. We use it to balance out the spherical aberrations which the other lenses cause. Moreover, we also use it to control the laser beam. In other words, it is a combination of one convex lens and one concave lens.

Further, another major example of using this kind of lens is a magnifying glass. When we place an object in front of it as a distance shorter than the focal length of the lens, it will create a magnified and erect image of the object on the same side as the object itself.

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Further, convex has a thicker lens and it gets thinner as we move towards the edges. However, the concave lens is thinner at the centre and keeps getting thicker as we move towards the edges.

The positive focal length elements have one spherical surface and one flat surface. The design of these lenses are for infinite parallel light use in non-critical applications. Moreover, these optical lenses are for all-purpose focusing elements.

Other than a convex lens, there is another kind of lens which we call a concave lens. It is quite different from this lens. Firstly, because the concave lens diverges a straight beam of light whereas the convex one converges a stream beam of light.

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Ever since childhood, lenses have always fascinated us. We can use them for anything from examining small objects to focusing the rays of the sun. Similarly, convex lenses are no less interesting. They are usually made of glass or transparent plastic. It has at least one surface which curves outwards much similar the exterior of a sphere. Moreover, you will notice that out of all the lenses, a convex lens is the most common one because it has multiple uses. So, through this article, we will focus on the definition, types, its difference from concave lens, functions, uses and more. Thus, all you need to know about these lenses is given right here. Read on to find out.

There are basically three types of these lenses, they are the plano-convex lens, the double convex lens, and finally, concave-convex lens. We will now look at them in detail. Firstly, a plano-convex lens curves outwards from one side and the other side is plain.

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Answer 2: There are basically three types of these lenses, they are the plano-convex lens, a double convex lens, and finally, concave-convex lens.

Moreover, when the object is at an imaginary point, then the image forms at an imaginary point which is real, inverted and of the same size. Next, if the object is between the focal point and imaginary point, then the image which forms beyond an imaginary point is real, inverted and magnified.

Now, we will look at some of the functions of convex lenses. First of all, when the object is at infinity, this lens will form the image at focus which is real inverted. Further, when the object is beyond the imaginary point, then the image forms between Focal point and an imaginary point. It is real, inverted and diminished.

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Plano-convexlens

Answer 1: We also call the convex lens as a converging lens as it converges a ray of light which is travelling parallel to its principal axis.

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Further, we also use this lens for correcting Hypermetropia or long-sightedness. After that, we use this lens in cameras as it focuses light and creates a clear and crisp image. Similarly, we also find its uses in compound lenses in different instruments like magnifying devices. For instance, microscopes, telescopes and camera lenses.

But, if one of the surfaces is flat and the other is convex, then we will call it a plano-convex lens. In addition, we also call a convex lens a converging lens as it converges a parallel beam of light on a point which we call the principal focus.