The ray diagrams shown trace the path that light takes in order to locate the image formed by a concave mirror. Points C and f indicate the mirror's center center of curvature and focal point.

Which ray diagrams are drawn incorrectly.

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### Understanding Ray Diagrams for Concave Mirrors Here, we examine the behavior of light rays in concave mirrors through several ray diagrams showing different object positions and the corresponding image formed. #### Diagram 1: - **Object Position**: Beyond the center of curvature (C). - **Image Characteristics**: The image is located between the center of curvature (C) and the focal point (f). It is inverted and smaller than the object. #### Diagram 2: - **Object Position**: At the center of curvature (C). - **Image Characteristics**: The image is formed at the center of curvature. It is inverted and equal in size to the object. #### Diagram 3: - **Object Position**: Between the focal point (f) and center of curvature (C). - **Image Characteristics**: The image is located beyond the center of curvature. It is inverted and larger than the object. #### Diagram 4: - **Object Position**: At the focal point (f). - **Image Characteristics**: No image is formed, as rays are parallel and do not converge to form an image. #### Diagram 5: - **Object Position**: Between the focal point (f) and the mirror. - **Image Characteristics**: The image is virtual, upright, and larger than the object. It appears behind the mirror. ### Explanation of Ray Diagrams: The diagrams illustrate how light behaves with concave mirrors: - Rays parallel to the principal axis reflect through the focal point. - Rays through the focal point reflect parallel to the principal axis. - Rays toward the center of curvature reflect back on themselves. Understanding these principles helps to predict the image formed by a concave mirror based on the object position relative to the mirror's focal point and center of curvature.