Draw a predicted ray diagram for the convex lens with the presence of a point-like source place at the focal point you already marked. Using diagrams below

Transcribed Image Text:

### Understanding Lenses: Convex and Concave #### Diagram Explanation: This image contains two diagrams illustrating the behavior of light rays when interacting with two different types of lenses: convex and concave. Each lens is placed after a source of parallel light rays. #### 1. Convex Lens - **Structure**: The lens is depicted as thicker in the middle and thinner at the edges. - **Light Behavior**: Parallel light rays entering the convex lens converge at a point on the opposite side, called the focal point. This is indicative of a focusing action. #### 2. Concave Lens - **Structure**: The lens is depicted as thinner in the middle and thicker at the edges. - **Light Behavior**: Parallel light rays entering the concave lens diverge as they exit, spreading outwards. This demonstrates a spreading or diverging action. Convex lenses are commonly used in applications such as magnifying glasses and eyeglasses for farsightedness, while concave lenses are used in eyeglasses for nearsightedness and in laser beams to expand light. Understanding the properties of these lenses is crucial for optics and various practical applications in science and technology.

Transcribed Image Text:

The image contains a series of diagrams illustrating the behavior of waves in various scenarios. 1. **Diagram 1**: - Depicts a plane wave approaching a flat surface. - The wave is labeled as "incident wave," which hits the surface at an angle. - A perpendicular line to the surface is labeled as "normal." - After hitting the surface, the wave reflects at an angle equal to the angle of incidence, labeled as "reflected." 2. **Diagram 2**: - Shows waves interacting with a concave mirror. - The incident waves approach the mirror and are reflected. - The reflected waves converge towards a focal point in front of the mirror. 3. **Diagram 3**: - Illustrates a series of waves interacting with a convex mirror. - The incident waves diverge upon reflection. - The reflected waves appear to be spreading out, as they diverge after reflection from the mirror. Each diagram demonstrates fundamental principles of wave behavior, including reflection and the effects of different mirror shapes on wave paths.