The purpose of this lab is to introduce students to some of the properties of thin lenses and mirrors. Realworld connections and examples make learning physics fun while plenty of math practice problems and selfquizzes help you succeed. Lenses and mirrors applications study for exams optics, physics. Introduction to lenses 10th class physics chapter 12. The difference between mirror and lens is that mirror means a smooth and highly polished glass surface, through which images are formed by reflection, as the light falls on it. I reffered 5 or six books which says that focal length of convex mirror is positive and focal length of concave mirror is negative. Using the interactive the optics bench interactive is shown in the iframe below. Finally, the magnification of a mirror or lens is given by the formula hh.
This is true for movie projectors, cameras, and the eye. Concaveconvex mirror and lenses for ssc cgl, chsl, mts, nda, cds railway exams. Light reflection and refraction 161 let us recall these laws i the angle of incidence is equal to the angle of reflection, and ii the incident ray, the normal to the mirror at the point of incidence and the reflected ray, all lie in the same plane. The physics classroom grants teachers and other users the right to print this pdf document and to download this pdf document for private use. Especially through systems made of lensespieces of glass or plastic shaped to alter the light passing through themoptics have made possible photography. Section summary the characteristics of an image formed by a flat mirror are. Ancient egyptians, babylonians, and greeks, all had a sense of basic optics. When light falls on a highly polished surface like a mirror. On the other extreme, a lens is a part of transparent refracting medium, i. The focal length, f, is the distance between f and the lens.
Kids learn about lenses and light in the science of physics including concave, convex, converging, diverging, focal point, meniscus, and plano lenses. The most apparent distinction between mirrors and lenses are that mirrors reflect light rays light bounces back while light rays are refracted passthrough through a lens. Pdf the first malayali appeared in indian postal stamp. At the end of the presentation, the ss will be able to correctly differentiate between the three types of mirrors.
Mirror, mirror on the wall eight lessons on mirrors. It seems that no two professors or teachers or books. We all know that the importance of mirrors, lens etc. R is the radius of curvature and c 1r is the curvature of the surface. Mirrors, which have curved surfaces designed to reflect rays, also form images. Lenses remembering the basics of mirrors puts you half ways towards fully understanding lenses as well. In addition, for spherical mirrors the focal length is half the radius of curvature of the reflecting surface.
So lets see how it goes, suppose that ive got an object out here in air and then ive got a piece of glass thats curved outward like this in a convex way. The rays of light coming from the point reflect according to. The power of a lens is defined as the reciprocal of its focal length. Uses of convex lens,concave lens,convex mirrors,concave mirrors lenses and mirrors applications study for exams optics, physics. The text is designed for upperlevel undergraduate students with a physics background. The three types of images formed by mirrors cases 1, 2, and 3 are exactly analogous to those formed by lenses, as summarized in the table at the end of image formation by lenses. Physics 21900 general physics ii electricity, magnetism and optics lecture 19 chapter 22. Therefore it has a radius, center point, circumference, etc lets make ray diagrams. It is easiest to concentrate on only three types of imagesthen remember that concave mirrors act like convex lenses, whereas convex mirrors act like concave lenses.
You then place a converging lens between the object and the mirror. A mirror will have only one focal point, which is in front of the mirror. Lenses lenses are made of transparentmaterials, like glass or plastic. Background in class you have studied the physics of thin. Due to the viewing angle, total internal reflection is not occurring at the top edge of this image, and we can see a view of. Use this method to determine f, focal length of the diverging lens as follow. Optics is the branch of physics concerned with the nature and uses of light. In this video i will introduce the objects, focal points, images of the converging and diverging lenses, and concave and convex mirrors. By using refraction, lenses can bend multiple light rays. The optical radiation includes not only the visible range, but a broader range of invisible electromagnetic radiation that could be influenced in its radiation behavior in a similar way as the visible radiation, but needs often other transmitters or receivers for this radiation. Frankl your own mind is a sacred enclosure into which nothing harmful can enter except by your promotion.
Physics lenses are curved glasses or transparent materials. A ray parallel to the lens axis passes through the far focus of a converging lens or appears to come from the near focus of a diverging lens. Concave mirrors and convex mirrors image formation, ray diagram. Newtonian physics includes both action at a distance e.
Magnification produced by a lens is also related to the objectdistance u, and the imagedistance v and is given by. Rotating mirror sweeps the scene until the image is aligned with fixed image from mirror m pretty much stereovision and window correlation from the manual of photography. Uses of convex lens,concave lens,convex mirrors,concave. A converging beam of light is incident upon the lens directed toward a virtual object o that is 60 cm from the lens. When this occurs, glasses or contact lenses may be used to correct the vision causing the light to focus on the back of the eye. Although it is possible to buy lenses that have aspherically curved surfaces, the vast majority of lenses have spherically curved surfaces. Download pdf geometrical optics kota study material for. Geometric optics intuition with mirrors and lenses concave convex diverging converging. If the object and image are the same distance from the mirror and magnification is 1, then as the object approaches the mirror at a certain speed, the image is approaching the plane mirror at the same speed, therefore you approach the image more quickly than you approach.
Most of the lenses we use in everyday life are designed to bend light rays to a specific focal point where items will be in focus clear. Lenses and how brain adapts to the image reflected or absorbed goals at the end of the presentation the student will be able to correctly differentiate between absorption, reflection and refraction. Telescopes, microscopes, cameras, projectors, your eyes, all have one thing in common. The primary goals are to understand the relationship between image distance, object distance, and image scale. A lens is a transparent device with two curved surfaces, usually made of glass or plastic, that uses refraction to form an image of an object. Jun 05, 2006 sir, i am confused on what sign conventions to follow. Real images, such as the one considered in the previous example, are formed by converging lenses whenever an object is farther from the lens than its focal length. The main development of the book begins in chapter 1 with. When light falls on a highly polished surface like a mirror most of the light is sent back into the same medium. The power p of a lens of focal length f is given by. However, the document should not be uploaded to other servers for distribution to and or display by others. This, too, i shall ignore, except for a brief foray in section 2. This property has put mirrors and lenses in use for centuries. Special mirrors all kinds of shiny objects act like mirrors.
To the right of the lens is water refractive index 1. With a converging lens, paraxial rays that are parallel to the principal axis converge to the focal point, f. Determination of focal length of a converging lens and mirror. Geometric optics converging lenses and mirrors physics lab iv objective in this set of lab exercises, the basic properties geometric optics concerning converging lenses and mirrors will be explored. Lenses and mirrors static web pages for physics and. Ray hits the vertex of mirror 1 and reflects with same angle. Ifthe outside, or convex surface, is silvered, we have a convex mirror. A convex lens gives a real, inverted image if the object is outside the focal length of the lens. A lens is a curved piece of glass or plastic designed to refract light in a specific. Image formation by mirrors physics simple book production. A case 1 image is formed when do f and f is positive, as in figure 10a. Use the escape key on a keyboard or comparable method to exit from fullscreen mode.
If youre seeing this message, it means were having trouble loading external resources on our website. Mirrors and lenses both have the ability to reflect or refract light. Or should it be a plus sign for mirrors and minus for lenses. May 07, 2020 just how much do you know about the different types of lenses and mirrors. Initially, i shall also make the approximation that lenses are thin. Alevel physics, section thermal physics, 6 chapters, 34 pages, 1. A lens can focus light to form an image, unlike a prism, which refracts light without focusing. These laws of reflection are applicable to all types of reflecting surfaces. Optics exam2 and problem solutions physics tutorials. Principles and problems combines proven, comprehensive content with dynamic multimedia tools and engaging, handson labs to help you get the big ideas of physics. The same sort of rules apply, just with a few modifications. Jun 16, 2016 in this video i will introduce the objects, focal points, images of the converging and diverging lenses, and concave and convex mirrors.
Then, cab and fab are approximately right triangles with the same opposite side ab. Physics study guideoptics wikibooks, open books for an. Lenses in optics applications types of lenses physics. A spherical mirror consists of a small section of the surface of a sphere with one side of the surface covered with a polished reflecting material, usually silver or aluminum. Clickingtapping the hot spot opens the interactive in fullscreen mode. The goal of the experiment is to be able to analyze ray diagrams so as to determine fundamental properties of image formation. You can go here to learn more about the refraction of light.
Lecture notes optics pdf 57p this note covers the following topics. Figure 3 illustrates how images are formed by a plane mirror and curved mirrors. And the name of this book is optics and modern physics by dc pandey. As of 2010, mirrors and lenses are so prevalent that most people use them every day, regardless of whether or not they consciously. Christmas balls, spoons, pans, windows, computer screens. As all who have ever tried lens and mirror calculations know, the biggest difficulty we have to face is that of the dreaded sign conventions. A compound microscope has two convex lenses, separated by 10.
Power of a convex lens is positive and that of a concave lens is negative. Types of lenses there are different ways to classify lenses. Difference between mirror and lens with comparison chart. Lenses or mirrors with flat surfaces are said to have an infinite radius of curvature. Light is that range of electromagnetic energy that is visible to the human eye, the visible colors.
You adjust the distance of the lens from the object until a sharp image of the object is focused on the screen. A lake with clear water and a dark bottom mirrors very well when the surface is flat no wind. Apply the thin lens equation and the mirror equation to determine the focal length of a converging biconvex lens and mirror. Jonathan is a published author and recently completed a book on physics and applied mathematics. A system of lenses andor mirrors forms an image by gathering rays from an object and then causes them to converge or diverge. Image formation for mirrors and lenses type focal length f object distance s image distance s character orientation size concave mirror converging lens f 0 s 2f f 2f real inverted enlarged s mirror diverging lens f. In this trivia questions quiz, you will get to learn some more about the different lenses and mirrors and how they differ from each other.
The physics convex lenses are converging lenses, and concave lenses are diverging lenses. The focus of convex lenses is where rays parallel to principal axis go. As of 2010, mirrors and lenses are so prevalent that most people use them every day, regardless of whether or not they consciously perceive the use. The primary goals are to understand the relationship between. There are two types of lenses, and they each change the perspective of how things look. Biconvex glass lens, spherical concave mirror, meter ruler, optical bench, lens holder, selfilluminated object generally a vertical arrow, screen. Designing an achromatic doublet a combination of two lenses in contact, a converging lens made of crown glass and a weaker diverging lens made of flint glass, can be designed so that the combination is a converging lens that is almost achromatic. Image formation by lenses physics simple book production. Physics 106 lab lenses and mirrors physics dept home. The image distance for a plane mirror is always equal to the object distance because the magnification is 1. It will give a virtual upright image if the object is within the focal length. Two prisms can bend light toward the principal axis acting like a crude converging lens but. Learn vocabulary, terms, and more with flashcards, games, and other study tools.
Confused on mirrorlens sign conventions physics forums. The vision may be corrected in the diagram above by using a a. The same strategies are valid for mirrors as for lenses with one qualificationuse the ray tracing rules for mirrors listed earlier in this section. Two concave mirrors are placed on same principal axis. Also, lenses have two focal points, one on each side of the lens.
Similarly transparent plastic mirrors reasonably well when put on top of dark paper lesson 3. This equation allows you to calculate the focal length of a lens if all you know is the curvature of the two surfaces. Each of a lens two faces is part of asphere and can be convex or concave if a lens is thicker at the center than theedges, it is a convex, or converging, lenssince parallel rays will be converged tomeet at the focus. A spherical mirror is simply a piece of a mirrored sphere. The pdf version of the teacher toolkit on the topic of vectors is displayed below. We will talk about how these things work using the following. Jan 26, 2018 this is a highly reputed and good quality content book. It focuses primarily on the wave and ray descriptions of light, but also includes a brief introduction to the quantum description of light. Ray, coming from first mirror turns back with same path after reflecting from second mirror. Light from the object passes through the lens, reflects from the mirror, and passes back through the lens. Finally, the magnification of a mirror or lens is given by the formula hh ss where h is.
Typically such a mirror is not a complete sphere, but a spherical cap a piece sliced from a larger imaginary sphere with a single cut. An object placed a certain distance away from a lens will produce an image at a certain distance from the lens, and the thin lens equation relates the image location to the object distance. This book provides an introduction to the eld of optics from a physics perspective. That means we have been playing with lenses for a long time. The circular ripple in the image center is actually on the water surface. Lenses and depth of field prepared by behzad sajadi. Lenses lenses refract light in such a way that an image of the light source is formed. Keep in mind that for an object to be considered a lens it must be made of a transparent material that has an index of refraction higher than air.
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