Draw a predicted ray diagram for the convex mirror with the presence of a light beam converge to the focal point of the mirror you already marked. Using diagrams below

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# Understanding Wave Reflection and Refraction This educational diagram illustrates the behavior of waves and light as they interact with different surfaces and materials. The illustration is divided into three parts, each demonstrating distinct wave phenomena. ### Diagram Explanation 1. **Plane Wave Reflection (Bottom Section)** - A flat surface is shown with an incident wave approaching it at an angle. - The wave is marked as "incident wave" hitting a surface. - A perpendicular line to the surface, labeled as "normal," is shown. - The reflected wave bounces off the surface, following the law of reflection which states that the angle of incidence is equal to the angle of reflection. 2. **Converging Wavefronts (Middle Section)** - A concave mirror is depicted with parallel incident rays. - The rays reflect and converge at a single point, known as the focal point. - This demonstrates the focusing effect of a concave mirror, where parallel rays converge after reflection. 3. **Diverging Wavefronts (Top Section)** - A convex mirror is used to show diverging wavefronts. - Parallel incident rays diverge after reflecting off the surface. - This illustrates the behavior of rays as they spread out when reflecting off a convex surface, appearing to originate from a focal point behind the mirror. Each section helps visualize fundamental principles of wave behavior, crucial for understanding optics and wave physics.

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The image depicts diagrams illustrating the behavior of light rays as they pass through different types of lenses: 1. **Diagram 1: Convex Lens (Converging Lens)** - Light rays enter from the left side, parallel to each other. - As they pass through the convex lens, they converge at a focal point on the right side. - This demonstrates the converging property of convex lenses, which focus parallel rays to a single point. 2. **Diagram 2: Concave Lens (Diverging Lens)** - Light rays also enter from the left side, parallel to each other. - Upon passing through the concave lens, the rays diverge. - The diverging property of concave lenses is illustrated here, as they cause parallel rays to spread out. These diagrams are fundamental in understanding the basic principles of lens optics, including how lenses can be used to focus or disperse light.