This demonstration shows how convex lenses and concave mirrors can bend or reflect light rays to bring them to a focus and form real images on a screen.

1. Place an object such as a candle, toy, or light source in front of a blank screen. Show that its light alone does not create a clear image on the screen.
2. Hold a convex lens between the object and the screen. Move the lens back and forth until a sharp, inverted image appears on the screen.
3. Replace the lens with a concave mirror, adjusting the distance between the mirror and the screen until the image comes into focus.
4. Compare the two methods: the lens refracts light to a focus, while the mirror reflects light to a focus.
5. Conclude by noting that telescopes use the same principles: refractors with lenses, reflectors with mirrors.

image Formation by a Lens or Mirror - Jeff Regester:

Using a convex lens to produce a real image - Simon Lloyd:

📄 The Art of Projection: How Convex Lens Enhance Projectors - Science Simplified: https://explerify.com/the-art-of-projection-how-convex-lenses-enhance-projectors/

• Try using different focal length lenses to see how image size and distance change.
• Demonstrate with multiple objects at different distances to explore focusing limits.
• Show how a magnifying glass (a convex lens) can project an image of a window scene onto paper.

• Never use the lens or mirror to focus sunlight—it can cause eye injury or start a fire.
• Handle glass lenses and mirrors carefully to avoid breakage and sharp edges.
• Supervise younger students closely during demonstrations.

• Why doesn’t light from an object form an image on a screen without a lens or mirror? (Because the rays spread out in all directions and do not converge to a focus.)
• Why is the image formed by a convex lens or concave mirror inverted? (Light rays crossing at the focal point flip the image upside down.)
• How do refracting and reflecting telescopes differ? (Refractors use lenses to bend light; reflectors use mirrors to focus light.)
• Which type of telescope can be made larger in practice, and why? (Reflectors—large mirrors are easier to construct and support than very large lenses.)