120k views
4 votes
Describing light interactions with curved mirrors match the descriptions to the feature

User Sxribe
by
7.9k points

1 Answer

3 votes
Sure, I can help you with that! Here are some descriptions of light interactions with curved mirrors and the matching features:

1. Reflection - When light waves hit a curved mirror, they bounce back, or reflect, off the surface of the mirror in a predictable way. The angle of incidence (the angle at which the light hits the mirror) is equal to the angle of reflection (the angle at which the light bounces off the mirror).

2. Focal point - The focal point of a curved mirror is the point at which parallel light waves converge or appear to converge after reflecting off the mirror's surface. The distance between the mirror's surface and the focal point is called the focal length.

3. Center of curvature - The center of curvature of a curved mirror is the point at the center of the sphere that the mirror would be if it were a complete sphere. It is located at a distance equal to the mirror's radius of curvature from the mirror's surface.

4. Concave mirror - A concave mirror is a curved mirror that curves inward, like the inside of a sphere. When light waves hit a concave mirror, they reflect and converge at a point in front of the mirror, forming a real image.

5. Convex mirror - A convex mirror is a curved mirror that curves outward, like the outside of a sphere. When light waves hit a convex mirror, they reflect and diverge, making objects appear smaller than they actually are. Convex mirrors are commonly used as side-view mirrors on cars.

I hope this helps! Let me know if you have any other questions.
User Alex Kuzmin
by
7.9k points

Related questions

asked Jun 9, 2024 149k views
Diego Giagio asked Jun 9, 2024
by Diego Giagio
8.5k points
2 answers
4 votes
149k views
asked Oct 6, 2021 76.9k views
Santhy K asked Oct 6, 2021
by Santhy K
8.0k points
1 answer
5 votes
76.9k views