An object O is placed at the location shown in front of a concave spherical mirror. Use ray tracing to determine the location and size of the reflected image. As you work, keep in mind the following properties of principal rays. • Part A 1. A ray parallel to the axis, after reflection, passes through the focal point Fof a concave mirror or appears to come from the (virtual) focal point of a convex mirror. Trace the path of a ray emitted from the tip of the object through the focal point of the mirror and then the reflected ray that results. Start by extending the existing ray emitted from the tip of the object. Then create the reflected ray. Draw the vector for the reflected ray starting from the point where the incident focal ray hits the mirror. The location and orientation of the vector will be graded. The length of the vector will not be graded. 2. A ray through (or proceeding toward) the focal point Fis reflected parallel to the axis. 3. A ray along the radius through or away from the center of curvature C intersects the surface normally and is reflected back along its original path. 4. A ray to the vertex Vis reflected, forming equal angles with the optic axis. No elements selected
An object O is placed at the location shown in front of a concave spherical mirror. Use ray tracing to determine the location and size of the reflected image. As you work, keep in mind the following properties of principal rays. • Part A 1. A ray parallel to the axis, after reflection, passes through the focal point Fof a concave mirror or appears to come from the (virtual) focal point of a convex mirror. Trace the path of a ray emitted from the tip of the object through the focal point of the mirror and then the reflected ray that results. Start by extending the existing ray emitted from the tip of the object. Then create the reflected ray. Draw the vector for the reflected ray starting from the point where the incident focal ray hits the mirror. The location and orientation of the vector will be graded. The length of the vector will not be graded. 2. A ray through (or proceeding toward) the focal point Fis reflected parallel to the axis. 3. A ray along the radius through or away from the center of curvature C intersects the surface normally and is reflected back along its original path. 4. A ray to the vertex Vis reflected, forming equal angles with the optic axis. No elements selected
Related questions
Question
Transcribed Image Text:An object O is placed at the location shown in front of a concave spherical mirror.
Use ray tracing to determine the location and size of the reflected image. As you
work, keep in mind the following properties of principal rays:
Part A
Trace the path of a ray emitted from the tip of the object through the focal point of the mirror and then the reflected ray that results. Start by extending the existing ray emitted from the tip of the object.
Then create the reflected ray.
1. A ray parallel to the axis, after reflection, passes through the focal point
Fof a concave mirror or appears to come from the (virtual) focal point of
a convex mirror.
2. A ray through (or proceeding toward) the focal point Fis reflected
parallel to the axis.
3. A ray along the radius through or away from the center of curvature C
intersects the surface normally and is reflected back along its original
path
4. A ray to the vertex Vis reflected, forming equal angles with the optic
axis.
Draw the vector for the reflected ray starting from the point where the incident focal ray hits the mirror. The location and orientation of the vector will be graded. The length of the vector will
not be graded.
No elements selected
Expert Solution
This question has been solved!
Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.
This is a popular solution!
Trending now
This is a popular solution!
Step by step
Solved in 2 steps with 1 images
