Sectieoverzicht

  • General

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    Outcomes

    By the end of this course you will:

    1. Be able to state what reflection is
    2. Be familiar with the different types of reflection
    3. Understand the laws of reflection
    4. Understand the concept of mirrors and reflection


  • Lesson 1: What is reflection?

    • You will remember from the previous course titled 'Propagation and transmission of light', that the reason you can see non-luminous objects is because light from a light source e.g. sun or a light bulb is reflected off the non-luminous object. 

      The reflection of light occurs when a light ray bounces off an object. A good example is when light rays strike a smooth, polished surface like a mirror. These rays are not transmitted or absorbed, they bounce back and a reflection occurs. These light rays are referred to as reflected light rays.

      The light rays that strike the surface are referred to as incident light rays.

      Image: MaxPixel (PD)

    • The image below clearly illustrates the difference between incident and reflection light rays. An interesting point to note is that the angle of incidence is equal to the angle of reflection - but more will be covered on this topic a little later!


  • Lesson 2: Types of reflection

    • There are two types of reflection:

      • Regular reflection, also known as specular reflection
      • Irregular reflection, also known as diffuse reflection

    • Regular / specular reflection

      Regular, or specular reflection occurs when light rays bounce off a highly polished surface like a mirror. The reflected light is very clear and defined. Both the incident and reflected light rays are parallel. 
      Image: Wikimedia Commons (CC BY)




      The above lake image would appear very different if the water were choppy due to the wind. The resulting reflection would then be diffuse.


    • Irregular / diffuse reflection

      Diffuse reflection occurs when light rays strike an irregular, or rough surface resulting in the reflected rays being reflected in different directions. Since the reflected rays are not parallel the result is either no image, or a distorted image being formed. 


      The image below clearly illustrates diffuse reflection. The water is slightly choppy resulting in a blurry, ill-defined reflection.


      Image: HippoPx free photo (PD)

    • Did you know?


      Image: Raw Pixel (CC0)

      Do you know why the sky is blue?

      Sunlight contains many different colours ranging from blue to red. The blue light waves are shorter than the longer red waves. When sunlight enters the earth's atmosphere, the sunlight is scattered by the gas molecules which are present in the earth's atmosphere. Since the blue light waves are shorter than the red light waves, they are scattered more and in all directions resulting in a blue sky.

  • Lesson 3: Laws of reflection

    • So far, you have learnt about why reflection occurs and how it differs depending on the surface which the incident rays strike. Let's re-look at the image you studied earlier and define some reflection laws which it illustrates.


    • First law of reflection

      The incident ray, reflected ray and normal ray at the point of incidence, all lie on the same plane.

      Second law of reflection

      The angle of incidence (i) is equal to the angle of reflection (r). 

      i = r

      These angles are calculated by comparing the angle of the incident ray to the normal line (which is perpendicular to the surface) and the angle of the reflected line compared to the normal line.

    • In closing, watch the short YouTube video below which clearly explains the concept of light reflection and its properties.

      MooMooMath and Science. (2021). Reflection of light clearly explained. (Standard YouTube licence)

  • Lesson 4: Images formed in mirrors

    • Let's now investigate how images are formed in a plane mirror. Watch the YouTube video below which clearly explains this concept.

      Infinity Learn Class. (2019). Properties of images formed by a plane mirror. (Standard YouTube licence)

    • Video summary

      Let's summarise the video into key points:

      • Images formed in a plane mirror are virtual and not real since they appear behind the mirror
      • The image will always be upright in a plane mirror. (Inverted images can occur but only if the mirror is concave)
      • The image will be the same size as the object its reflecting. Plane mirrors do not magnify images
      • Images in a plane mirror are laterally inverted, for example if you raise your left hand in front of a plane mirror, the image inverts as appears as if you are raising your right hand i.e. there is left-right reversal
      • The image formed is the same distance from the mirror as the object is


    • Rotating a mirror

      What happens to a reflected ray if you rotate a mirror? That's an interesting question!

      Let's look at this question with a real example:

      • You know that the incident angle and reflected angle are equal on a plane mirror. For this example, we will assume that this angle is 10 degrees
      • Rotate the mirror by 15 degrees
      • The reflected ray then moves through an angle twice the size of the angle of rotation i.e. the reflected ray will turn through 30 degrees

    • Right angle mirrors

      Refer to the image below as we discuss this topic.

      Two mirrors are placed at 90 degrees to each other. Each of the plane mirrors produe a left-right reversal image. These images are referred to as primary images.


    • But right angle mirrors actually produce three images.

      The third image is formed by light rays which reflect off mirror 1 onto and off mirror 2 into your eyes. This third image is known as the secondary image. This secondary image is a result of two reflections and does not show the left-right reversal.


    • Images in parallel mirrors


      • Two mirrors are placed parallel to each other two metres apart
      • A person stands in the middle between the two mirrors. There will be one metre between each mirror and the person
      • When mirrors are exactly parallel (i.e. there is no angle between them), remember that the image distance equals the object distance

    • Let's now take this a step further:

      • Image 1 can also be considered as an object for mirror 2
      • Image 1 will be 3m from mirror 2 and therefore the secondary image will be 3m behind mirror 2


    • Based on the same principle, there will be a secondary image of image 2 which appears in mirror 1.



      These secondary images also act as objects to create a third pair images, and so the process continues. Ultimately, an infinite number of secondary images are created. 

      When the mirrors are facing each, these images are not clearly seen since:

      • Since there are so many reflections, the images become faint and are not clearly visible
      • The human eye cannot comprehend far off images since the angle subtended by these images on the human eye is very small


    • Differences between an image and a shadow

      Reflect on this. Can you identify the differences between an image and a shadow?

      Once you have reflected on this and identified what you think are the differences, click on the link below to find out more.

    • Images and shadows - What's the difference? Pagina
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    • Summary

      In this course we explored what reflection is and the difference between incident and reflection rays. We then moved on to specular and diffuse reflections and how they influence the images created when light strikes their surface. 

      The reflection of light on plane mirrors, mirrors and 90 degrees to each other and then mirrors parallel to each was thoroughly discussed with the aid of illustrations. 

      The reflection of light is a broad topic and when one thinks about how a human actually sees through this process of light reflection, it is an amazing occurrence.

    • Quiz

      Finally, test your understanding on the reflection of light by answering the questions in the short quiz below. A pass mark of 50% is deemed successful - good luck!

    • Quiz: Reflection of light Test
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      Een cijfer behalen
      Het slaagcijfer behalen

    • Attribution

      The following resources were consulted in the construction of this course:

      • Tanzania Institute of Education. (2021). Physics for Secondary Schools Form One. (Full copyright)
      • MooMooMath and Science. (2021). Reflection of light clearly explained. (Standard YouTube licence)
      • Infinity Learn Class. (2019). Properties of images formed by a plane mirror. (Standard YouTube licence)
      • MooMooMath and Science. (2021). Reflection of light clearly explained. (Standard YouTube licence)
      • Infinity Learn Class. (2019). Properties of images formed by a plane mirror. (Standard YouTube licence)