A convex mirror has a focal length of 70 cm. An object is placed
40 cm from the mirror.
a. Draw the ray tracing diagram to locate the image. Is the image
real or virtual?
b. Calculate the image location and the magnification for the
image. Compare your results with part a.
A convex mirror has a focal length of 70 cm. An object is placed 40 cm...
A concave mirror has a focal length of 45 cm. An object is placed 35 cm from the mirror. a. Draw the ray tracing diagram to locate the image. Is the image real or virtual? b. Calculate the image location and the magnification for the image. Compare your results with part a. c. What would the image location and magnification be if the object were 55 cm from the mirror?
A diverging lens has a focal length of 65 cm. It is located 90 cm from an object. a. Draw the ray tracing diagram to locate the image. Is the image real or virtual? b. Calculate the image location and the magnification for the image. Compare your results with part a.
A converging lens has a focal length of 7.5 cm. An object is placed 5 cm from the lens. a. Draw the rays tracing diagram to locate the image. Is the image real or virtual? b. Calculate the location and the magnification for this image.
Suppose an object 2.0cm high is placed 5.0cm in front of a convex mirror whose focal length is 3.0cm. a) Calculate the image position, image height and the magnification. b) Describe the image (upright or inverted, real or virtual, bigger or smaller). c) Sketch a ray diagram to locate the image
An object is placed 40 cm to the left of a convex lens that has a focal length f = +10 cm. a) Draw the ray diagram (3 rays) and find the image. b) What is the distance the image is from the lens? c) Is the image real or virtual? d) What is the magnification?
An object is placed 40 cm to the left of a convex lens that has a focal length f= +10 cm. a) Draw the ray diagram (3 rays) and find the image. b) What is the distance the image is from the lens? c) Is the image real or virtual? d) What is the magnification?
An object is placed 24.1 cm in front of a convex mirror of focal length 50 cm. Note: Do convex mirrors have a positive or negative focal length? What is its image position? Answer in units of cm. The magnification of the image in the previ- ous question is: With the arrangement discussed above, the image is: 1. virtual, inverted, smaller than object 2. real, erect, smaller than object 3. real, inverted, bigger than object 4. real, erect, bigger than...
2. An object is 30 cm in front of a convex mirror with a focal length of 20 cm. Using ray tracing and thin lens equation, determine whether the image is real/virtual, upright/inverted, reduced/magnified.
2. An object is 30 cm in front of a convex mirror with a focal length of 20 cm. Using ray tracing and thin lens equation, determine whether the image is real/virtual, upright/inverted, reduced/magnified.
A concave mirror of 5 cm focal length and a convex mirror of also 5 cm focal length are 30 cm apart. An object positioned 15 cm from the concave mirror. Let the image first formed by the concave mirror be the object for the convex mirror. Determine the location, orientation, nature (virtual, real), and magnification of the final image formed by the convex mirror.