Class 7 Science

Chapter 11 — Light: Shadows and Reflections

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Overview

Summary

Chapter 11 of the Class 7 Science NCERT textbook (Curiosity) covers light — how it travels in a straight line, how shadows are formed, and how reflection works in plane mirrors and simple optical devices like the pinhole camera, periscope, and kaleidoscope.

  • Light sources and how light travelsThe chapter distinguishes luminous objects that make their own light, like the Sun and fireflies, from non-luminous ones like the Moon that only reflect it — and establishes that light travels in straight lines.
  • Materials and shadowsHow much light a material lets through defines it as transparent, translucent, or opaque; opaque objects block light to cast shadows, needing a source, an object, and a screen, with shadow colour independent of object colour.
  • Reflection in plane mirrorsWhen light strikes a mirror it changes direction; the image formed is the same size, erect, laterally inverted, and cannot fall on a screen — the lateral inversion that makes 'AMBULANCE' readable in a rear-view mirror.
  • Optical devices from mirrorsApplying reflection, students build devices — a pinhole camera that makes an inverted image, a periscope using two mirrors in a Z to see around obstacles, and a kaleidoscope whose mirrors multiply patterns.
Essentials

Key points & formulas

  1. 01Luminous objects emit their own light (e.g., Sun, stars, lightning, fireflies); non-luminous objects like the Moon only reflect light.
  2. 02Light travels in a straight line, demonstrated by the matchbox-hole activity and the bent-pipe activity.
  3. 03Transparent materials allow light to pass almost completely; translucent materials allow it to pass partially; opaque materials block light entirely.
  4. 04A shadow is formed when an opaque object blocks light from reaching a screen. Three things needed: a light source, an opaque object, and a screen.
  5. 05Opaque objects form darker shadows; translucent objects make lighter shadows; even some transparent objects can create faint shadows. Changing the colour of an opaque object does not change the colour of its shadow.
  6. 06The change in the direction of light when it falls on a mirror is called reflection of light.
  7. 07The image in a plane mirror is the same size as the object, erect, laterally inverted, and cannot be obtained on a screen. The image appears as far behind the mirror as the object is in front.
  8. 08Lateral inversion means left appears right and right appears left in a plane mirror image — which is why 'AMBULANCE' is written in mirror script on ambulances so drivers can read it in their rear-view mirrors.
  9. 09A pinhole camera forms an inverted (upside-down) image of an object on a screen; images show the colours of the objects.
  10. 10A periscope uses two plane mirrors in a Z-shaped arrangement to see objects not visible directly; it is used in submarines, tanks, and by soldiers.
  11. 11A kaleidoscope uses three rectangular plane mirror strips joined in a triangular arrangement; reflections of reflections create many different, beautiful patterns.
Questions

Frequently asked questions

01

What is Chapter 11 of Class 7 Science Curiosity about?

Chapter 11, titled 'Light: Shadows and Reflections', covers sources of light, how light travels in a straight line, how shadows are formed when opaque objects block light, and how reflection by plane mirrors works. It also explains the pinhole camera and how to make a periscope and a kaleidoscope.

02

What is the difference between luminous and non-luminous objects?

Objects that emit their own light are called luminous objects — for example, the Sun, stars, lightning, natural fire, and certain animals such as fireflies. Objects that do not emit their own light are called non-luminous objects. The Moon is a non-luminous object; it only reflects the light emitted by the Sun.

03

How do we know that light travels in a straight line?

Two activities demonstrate this. In the matchbox-hole activity, three matchboxes are arranged so their holes are in a straight line; a bright spot appears on the screen only when all holes are aligned. If one box is shifted, the spot disappears. In the bent-pipe activity, a candle flame can be seen through a straight pipe but not through a bent pipe — confirming that light travels in a straight line.

04

What is the difference between transparent, translucent, and opaque materials in the context of light?

Light passes almost completely through transparent materials. Light passes only partially through translucent materials. Light does not pass through opaque materials at all. These differences determine whether an object blocks, partially blocks, or allows light to pass through.

05

What conditions are needed to form a shadow?

Three things are needed to observe a shadow: a source of light, an opaque object, and a screen. When the opaque object blocks the light, a dark patch — the shadow — forms on the screen where light does not reach. Walls, floors, or any surface can act as the screen in daily life.

06

Does changing the colour of an object change the colour of its shadow?

No. Changing the colour of an opaque object does not change the colour of its shadow. The shadow is simply the dark region where light does not reach, so its colour is always dark regardless of the colour of the object blocking the light.

07

What are the properties of the image formed by a plane mirror?

The image formed by a plane mirror is the same size as the object, erect (upright), laterally inverted (left and right are swapped), and cannot be obtained on a screen. The image appears as far behind the mirror as the object is in front of the mirror.

08

What is lateral inversion and why is 'AMBULANCE' written in mirror script?

Lateral inversion is the perceived left-right reversal that occurs in images formed by a plane mirror — your left appears as right in the image and your right appears as left. 'AMBULANCE' is written in mirror script (reversed) on the front of an ambulance so that when a driver ahead sees it in their rear-view mirror, it reads correctly as 'AMBULANCE', helping them recognise the emergency vehicle quickly.

09

How does a pinhole camera work and what kind of image does it form?

A pinhole camera is a device in which light rays from an object pass through a tiny hole (a pinhole) and form an image on a screen. The image formed is inverted — upside down. The images show the colours of the objects. This is different from a plane mirror, where the image is erect but laterally inverted.

10

What is a periscope and how does it work?

A periscope is made by placing two plane mirrors in a Z-shaped box. Reflection from the two mirrors allows a person to see objects that are not directly visible. Periscopes are used in submarines, tanks, and by soldiers to see outside their bunkers without exposing themselves.

11

How does a kaleidoscope create patterns?

A kaleidoscope uses three rectangular plane mirror strips joined together in a triangular arrangement. Because there are three mirrors, light undergoes multiple reflections (reflections of reflections), creating many interesting patterns with coloured beads or bangle pieces placed at one end. The pattern changes every time the kaleidoscope is turned, and designers and artists use kaleidoscopes to get ideas for new patterns.

12

Is the Class 7 Science Chapter 11 PDF free to download? Do I need to sign up?

Yes, the NCERT Class 7 Science Chapter 11 PDF is free to read and download on cbseprepmaster.com. No sign-up or account is required.

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More chapters in Curiosity

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