Draw a ray diagram for the concave mirror with the presence of a point-like light source place at the focal point you already marked. Using diagrams below

Transcribed Image Text:

### Reflection and Refraction of Light This educational diagram illustrates the behavior of light as it interacts with different surfaces and lenses. It is divided into three main sections: #### Section 1: Reflection - **Diagram Elements:** - A flat surface (represented by a straight line). - An incoming "incident wave" approaching the surface. - A "normal" line perpendicular to the surface. - A "reflected wave" moving away from the surface at an angle equal to that of the incident wave. - **Explanation:** - This section demonstrates the law of reflection, stating that the angle of incidence equals the angle of reflection. The incident wave represents the light source which reflects off the flat surface. #### Section 2: Refraction through a Concave Lens - **Diagram Elements:** - A concave lens (curved inwards). - Several incident rays entering the lens, shown bending as they pass through. - Refracted rays diverging after passing through the lens. - **Explanation:** - This part illustrates how a concave lens causes parallel incoming light rays to spread out, or diverge. This type of lens is used in devices like eyeglasses for nearsightedness. #### Section 3: Refraction through a Convex Lens - **Diagram Elements:** - A convex lens (curved outwards). - Incoming rays depicted converging at a focal point after passing through the lens. - **Explanation:** - This section shows how a convex lens focuses parallel light rays to a single point, the focal point. Convex lenses are used in magnifying glasses and cameras to converge light to form clear images. This diagram effectively demonstrates how different optical tools modify the direction of light for various practical applications. Understanding these principles is essential in fields such as optics and photonics.

Transcribed Image Text:

The image consists of two diagrams illustrating the behavior of light rays interacting with lenses. **Diagram 1:** - **Description:** This diagram shows a converging lens (convex lens). - **Light Rays:** Parallel light rays approach from the left towards the lens. After passing through the lens, the rays converge at a single point on the right side, known as the focal point. - **Components:** - **Lens:** Represented in the center, it is thinner at the edges and thicker in the middle. - **Focal Point:** The point on the right where the rays meet after refraction. **Diagram 2:** - **Description:** This diagram displays a diverging lens (concave lens). - **Light Rays:** Parallel light rays approach from the left towards the lens. After passing through the lens, the rays diverge, spreading outwards. - **Components:** - **Lens:** Depicted in the center, it is thicker at the edges and thinner in the middle. - **Virtual Focal Point:** The rays appear to diverge from a point on the left side of the lens. These diagrams illustrate the basic principles of light refraction through different types of lenses, essential knowledge in optics and physics education.