Light & Shadows
Light and Shadows
What you'll learn
- How light travels: rectilinear propagation.
- How shadows form; umbra and penumbra.
- Properties of plane mirrors and image formation.
- How a pinhole camera works.
- Transparent, translucent and opaque materials.
Key concepts
Properties of light
- Light is a form of energy that enables us to see.
- Source of light: objects that emit light — the Sun, stars, flames, electric bulbs, LEDs.
- Luminous objects: emit their own light (Sun, bulb, candle).
- Non-luminous objects: do not emit light; seen by reflected light (Moon, books, people).
Materials and light:
| Type | Description | Examples |
|---|---|---|
| Transparent | Light passes through completely; objects seen clearly | Clear glass, clean water, air |
| Translucent | Some light passes through; objects seen blurrily | Frosted glass, oiled paper, thin cloth |
| Opaque | No light passes through; forms a shadow | Wood, metal, cardboard, stone |
Rectilinear propagation of light
Light travels in straight lines (rectilinear = straight-line).
Evidence:
- When three cardboard pieces with holes are aligned, you can see a candle flame through all holes; if any card is displaced, you cannot — proving light travels straight.
- Laser beams are visible as straight rays.
- Shadows form because light cannot bend around opaque objects.
Shadows
- A shadow forms when an opaque object blocks light from a source.
- Shadow is always on the opposite side of the object from the light source.
- Shadow has the same shape as the cross-section of the object facing the light.
Parts of a shadow (with a large/extended source):
- Umbra: completely dark region — no light reaches here.
- Penumbra: partially lit region around the umbra — some light reaches here.
Factors affecting shadow size:
| Factor | Effect |
|---|---|
| Object closer to light source | Larger shadow |
| Object farther from light source | Smaller shadow |
| Light source larger | Larger penumbra |
| Object larger | Larger shadow |
Eclipses (extension):
- Solar eclipse: Moon comes between Earth and Sun; Moon's shadow falls on Earth.
- Umbra region → total solar eclipse; penumbra region → partial solar eclipse.
- Lunar eclipse: Earth comes between Sun and Moon; Earth's shadow falls on Moon.
Reflection of light — Plane mirrors
- Reflection: bouncing back of light when it hits a surface.
- Laws of reflection:
- Angle of incidence = angle of reflection (∠i = ∠r).
- Incident ray, reflected ray, and normal are all in the same plane.
Image in a plane mirror:
| Property | Description |
|---|---|
| Size | Same as object |
| Distance | Same distance behind mirror as object is in front |
| Nature | Virtual (cannot be caught on a screen) |
| Orientation | Erect (right way up) |
| Lateral inversion | Left and right are swapped |
Lateral inversion: your right hand appears as left hand in a mirror; letters appear reversed (AMBULANCE is written reversed on emergency vehicles so drivers see it correctly in their rear-view mirrors).
Multiple mirror reflections: Two mirrors at 90° → 3 images; at 60° → 5 images. Formula: number of images = (360°/angle) − 1.
Uses of mirrors:
- Periscope (two mirrors at 45°; used in submarines to see above water level).
- Kaleidoscope (three mirrors at 60° to create beautiful symmetric patterns).
- Rear-view mirrors in vehicles.
- Dentist's mirror (concave).
- Solar cooker (concave mirror concentrates sunlight).
Pinhole camera
- A pinhole camera is a simple device that forms an image using a tiny hole.
Construction: A box with a tiny hole (pinhole) on one side and a translucent screen on the opposite side.
How it works:
- Light from the top of the object passes through the hole downward → hits bottom of screen.
- Light from the bottom of the object passes through the hole upward → hits top of screen.
- Result: image formed is inverted (upside down) and real.
Properties of pinhole camera image:
- Inverted (upside down and left-right swapped).
- Real (can be caught on screen).
- Size depends on distance: object farther from pinhole → smaller image; screen farther from pinhole → larger image.
Basis of photography and human eye: same principle — convex lens replaces pinhole; image forms on retina/film.
Quick check
- Define rectilinear propagation of light. Give two pieces of evidence.
- What is the difference between transparent, translucent and opaque materials? Give one example each.
- State the laws of reflection.
- What is lateral inversion? Give a practical application.
- Describe the image formed by a pinhole camera. Why is it inverted?
Open the Practice tab for graded questions on Light and Shadows.
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