12 October 2015 Unit 10 Light Thin Converging Lens Discover PHYSICS for GCE ‘O’ Level Science.

Slides:

Advertisements

Similar presentations

Learning Outcome Draw a ray diagram to find the position, nature and size of the image produced by a concave and convex mirrors.

Advertisements

Subject: PHYSICS Topic: Convex lens Light refraction in Prism Ray diagram of a convex lens Ray diagram illustrating graphical construction rules of a.

LIGHT THIN LENSES Name: ________________ Class: _________________

Convex and Concave Lenses

L 31 Light and Optics-3 Images formed by mirrors

LENSES. LENSES A light ray bends as it enters glass and bends again as it leaves ◦This refraction is due to the difference in the average speed of light.

Optics. Spherical Mirrors Spherical mirror – a section of a sphere of radius R and with a center of curvature C R C Mirror.

Image Formation 2 Thin Lens Multi lens/mirror system

Thin Lenses Zahra Pirvali University Senior College Dr Shahraam Afshar University of Adelaide Centre of Expertise in Photonics.

LENS any transparent object having two nonparallel curved surfaces or one plane surface and one curved surface Converging Lenses - thicker in middle than.

Chapter 11 Review Mirrors & Lenses. What is an angle of incidence? 2 The angle between an incident ray and the normal of an optical device. Category:

Ray Diagrams Notes.

Curved Mirrors. Two types of curved mirrors 1. Concave mirrors – inwardly curved inner surface that converges incoming light rays. 2. Convex Mirrors –

L 33 Light and Optics [3] images formed by mirrors –plane mirrors –curved mirrors Concave (converging) Convex (diverging) Images formed by lenses the human.

Refraction through a lens. we have seen people using spectacles for reading. The watchmakers use a small glass to see tiny parts. Pistol or rifle shooters.

Lenses A transparent object used to change the path of light Examples: Human eye Eye glasses Camera Microscope Telescope Reading stones used by monks,

1© Manhattan Press (H.K.) Ltd. Terms used for lenses Images in lenses Images in lenses 12.2 Converging and diverging lenses Lens formula Lens formula.

Textbook Chp 12.4 Pg 237 to 247.  Converging and Diverging Lenses  Focal Length of a Converging Lens  Ray Diagrams for Converging Lens.

A. can be focused on a screen. B. can be projected on a wall.

Lenses Chapter 30.

Mirrors and Lenses Chapter 23

Chapter 30 Key Terms June 4 – June 10 Mr. Gaydos.

Mirrors & Reflection.

Optics 2: REFRACTION & LENSES. REFRACTION Refraction: is the bending of waves because of the change of speed of a wave when it passes from one medium.

Lesson 25 Lenses Eleanor Roosevelt High School Chin-Sung Lin.

Lenses – Application of Refraction AP Physics B. Lenses – An application of refraction There are 2 basic types of lenses A converging lens (Convex) takes.

02/06/2016 Lenses and Images LO: to be able to describe images formed by different types of lenses Starter: make a list of any items you can think of that.

12.1 Characteristics of Lenses. Today we will learn about...  the different types of lenses, the characteristics of the image formed by each of those.

SEEING THROUGH A LENS.  We see the world through lenses.  Eye glasses = lenses. Contact lenses = lenses.  Magnifying glasses = lenses. Microscopes.

Lesson 4 Define the terms principal axis, focal point, focal length and linear magnification as applied to a converging (convex) lens. Define the power.

Its now time to see the light…..  A lens is a curved transparent material that is smooth and regularly shaped so that when light strikes it, the light.

Ray Diagrams Noadswood Science, 2013.

Ray Diagrams for Lenses. Convex (Converging) Lenses There are two Focal points One in Front and one Behind Focal point is ½ way between Center of Curvature.

Converging Lenses Section 4.6 Lesson 13. Lenses A lens is a thin transparent piece of glass or plastic that has at least one curved side –The sides can.

L 33 Light and Optics [3] images formed by mirrors

Dispersion The spreading of light into its color components is called dispersion. When light enters a prism, the refracted ray is bent towards the normal,

M Manser WAVES : Optics (t riple science) By the end of this presentation you should be able to: Identify the differences between converging and diverging.

Lenses Convex lenses converge rays of light. Parallel rays converge a fixed distance away from the lens. This is known as the focal length.

A “Visual” Review Fuss Physical Science.

Mirrors and Lenses. Mirrors and Images Key Question: How does a lens or mirror form an image?

Lenses and the Formation of Images. Basic Lens Shapes Converging Lens -thickest in the middle (thinnest at edge) -causes parallel light rays to converge.

LENSES Write down anything like this!.  Different types of lenses play an important part in our lives. They are used in cameras, telescopes, microscopes,

Revision of terminology and drawing a Ray diagram

SEEING THROUGH A LENS.  We see the world through lenses.  Eye glasses = lenses. Contact lenses = lenses.  Magnifying glasses = lenses. Microscopes.

Mirrors. Types of mirror There are two types of mirror Plane (flat) Curved Concave (curves in) Convex (curves out)

PHYSICS – Total Internal Reflection and Lenses. LEARNING OBJECTIVES Core Describe the formation of an optical image by a plane mirror, and give its characteristics.

15.2 Images formed by convex lenses The nature of image formed by a convex lens Can the image be formed on a screen? The image formed is erect and magnified.

Refraction and Lenses. The most common application of refraction in science and technology is lenses. The kind of lenses we typically think of are made.

M Manser WAVES : Optics (t riple science) By the end of this presentation you should be able to: Identify the differences between converging and diverging.

Using Lenses. Aims Be able to describe the behavior of light as it passes through a convex lens. Know how to measure the focal length of a convex lens.

Refraction. Refraction of Light When light waves pass from one medium to the next, its speed changes, causing it to bend. Going from lower to higher index.

Examples of Total Internal Reflection

Thin Lenses – Ray Tracing

What have these all got in common?

PHYSICS – Total Internal Reflection and Lenses

Converging Lenses Section 4.6 Lesson 13.

Convex and Concave Lenses

LENSES A lens is defined as - A ground or molded piece of glass, plastic, or other transparent material with opposite surfaces either or both of which.

Lenses A lens is a transparent material (with at least one curved side) that causes light refracts in a predictable and useful way. Each ray is refracted.

Presentation transcript:

12 October 2015 Unit 10 Light Thin Converging Lens Discover PHYSICS for GCE ‘O’ Level Science

Unit 10.6 Converging Lens Learning Outcomes In this section, you’ll be able to: Describe the action of a thin converging lens on a beam of light Define the term focal length for a converging lens

Unit 10.6 Converging Lens What is a lens? A lens is a piece of clear plastic or glass with curved surfaces. Lenses are widely used in spectacles, cameras, projectors and many other optical instruments.

Unit 10.6 Converging Lens How does a lens refract light? A lens can be thought of as a set of blocks and prisms (see Fig and 10.54). Fig Converging LensFig Diverging Lens

Unit 10.6 Converging Lens How does a lens refract light? Parallel light rays will incident different parts of the lens at different incident angles. Light rays refract the most at the outermost part of the lens, while less or no refraction occurs in the middle portion. Fig Converging LensFig Diverging Lens

Unit 10.6 Converging Lens How does a lens refract light? As a result, the light rays will converge (Fig 10.53) or diverge (Fig 10.54) behind the lens. Fig Converging LensFig Diverging Lens

Unit 10.6 Converging Lens Types of Lenses – Converging and Diverging For converging lenses, parallel light rays are brought to focus at a point. For diverging lenses, parallel light rays tend to be spread out. Insert table 12.4

Unit 10.6 Converging Lens Thin converging lens and its main features Fig Converging lens 1.Optical centre C 2.Principal axis 3.Focal point F – All parallel rays to the principal axis converge at the focal point F. 4.Focal length, f – The distance between the optical centre C and the focal point F. 5.Focal plane Fig Converging lens

Unit 10.6 Converging Lens Tracing path of light through a thin converging lens Insert fig for path 1,2 and 3 on pg 247

Unit 10.6 Converging Lens Key Ideas 1.Lenses are used to converge and diverge a beam of light. 2.The main features of a thin converging lens are: Optical centre C Focal point F Focal length f Principal axis

Unit 10.6 Converging Lens Key Ideas 3.Three definite paths for light rays passing through a thin converging lens: Insert Fig for path 1, 2 and 3 on pg 247

Unit 10.6 Converging Lens Test Yourself Fig shows light rays passing through a converging lens. Is the ray diagram correct? Give your reasons. Answer: For a converging lens, light rays should be refracted in such a way that they tend to converge. So the correct ray path is:

Unit 10.7 Ray Diagram for Lenses Learning Outcome In this section, you’ll be able to: Draw ray diagrams to illustrate the formation of real and virtual images of an object formed by a thin converging lens.

Unit 10.7 Ray Diagram for Lenses How to locate the position of an image? 3 steps to locate the image: Step 1: Set up the lens and the ray diagram. Step 2: Placing the object. Step 3: Trace the light rays using paths 1, 2 or 3 as learned on pg 189.

Unit 10.7 Ray Diagram for Lenses How to locate the position of an image? Step 1: Set up the lens and the ray diagram i.Draw principal axis ii.Draw the lens iii.Mark optical centre C iv.Mark the focal point F Fig Step 1

Unit 10.7 Ray Diagram for Lenses How to locate the position of an image? Step 2: Placing the object. i.Place the object O to the left of the lens. ii.Mark the object distance as u. Fig Placing the object

Unit 10.7 Ray Diagram for Lenses How to locate the position of an image? Step 3: Trace the light rays and draw the image. i.Draw 2 of the 3 definite paths e.g. Path 1 and 2. ii.The point where the two light paths intersect is the position of the image. Fig Draw paths and locate image

Unit 10.7 Ray Diagram for Lenses How to locate the position of an image? In this example, the image is said to be a real image. A real image is formed when the light rays converge at the point of the image. If a screen is place at this position, the image will be captured clearly on screen. Fig Formation of a real image

Unit 10.7 Ray Diagram for Lenses Virtual image formed by a converging lens When the object O is placed near to the lens such that the object distance u is less that the focal length f, then a virtual image is formed. A virtual image cannot be captured on screen. Fig Virtual image is formed when u < f

Unit 10.7 Ray Diagram for Lenses Table 10.5 Types of images formed by a converging lens with different values of object distances u.

Unit 10.7 Applications of Converging Lenses Converging Lenses can be used in various optical instruments: Magnifying glass LCD projector Camera Visual correction for long-sightedness

Unit 10.7 Applications of Converging Lenses Magnifying glass – See Worked Example When the object is placed such that u < f, image is magnified, virtual and upright. Fig Magnifying glass

Unit 10.7 Applications of Converging Lenses LCD Projector – In the LCD projector the object is placed between f and 2f such that the image formed is magnified, real and inverted. Fig LCD Projector

Unit 10.7 Applications of Converging Lenses Camera Lens – For the camera lens, the image is diminished, real and inverted. Fig Camera Lens

Unit 10.7 Applications of Converging Lenses Visual Correction for Long-sightedness People with long-sightedness are unable to focus a clear image of near objects on the retina. Fig 10.70(a) Long-sightedness

Unit 10.7 Applications of Converging Lenses Spectacles with converging lenses can partially converge the light rays, thereby helping to form a sharp image on the retina. Fig 10.70(b) Converging lens helps a long sighted eye to focus a clear image on the retina Visual Correction for Long Sightedness

Unit 10.7 Ray Diagrams for Lenses Key Ideas 1.Ray diagrams can be constructed to locate the position and type of image formed by a thin converging lens. 2.Light paths using Path 1 and Path 2 to construct the ray diagram. 3.A real and inverted image is formed when object distance u > focal length f. The image is formed on the other side of the lens.

Unit 10.7 Ray Diagrams for Lenses Key Ideas 4.A virtual and upright image is formed when the object distance u < focal length f. The image is formed on the same side of the lens as the object. 5.Converging lenses can be found in a wide variety of optical instruments such as the camera and projector.

Unit 10.7 Ray Diagrams for Lenses Test Yourself How far from a thin converging lens must an object be placed to produce a magnified image? Answer: When object distance u < focal length f, the image is magnified, virtual and upright. (See Worked Example 10.11). Eg. Magnifying Glass When object distance u is between f and 2f, the image is magnified, real and inverted. (See Worked Example 10.12). Eg. Projector.

Unit 10.7 Ray Diagrams for Lenses Test Yourself State two applications of converging lenses. Answer: Any two of the following: Use as magnifying glass In LCD projector Camera lenses Use for visual correction for long sightedness