A convex ("converging") lens has a focal length of 6.0 cm. An object that is 3.00 cm tall is placed 15.0 cm in front of the lens. 24.96.91.88 Do all of the following: [2 pts] Calculate the image distance for the above scenario. Enter its numerical value (in centimeters) in the answer box for this odd-numbered question. (You will also show your work in the even-numbered question that follows.) ● . [3 pts] Calculate the image height as well. Report this numerical value along with your work that leads to it in the even-numbered question that follows. Be sure to include appropriate units. • [5 pts] Draw a ray-tracing diagram to support your calculations. Use graph paper and a straight edge, and clearly label the object, image, lens plane, focal points, and scale of your diagram in order to receive full credit. (Include this with the work you submit in the even-numbered question that follows.)

A convex ("converging") lens has a focal length of 6.0 cm. An object that is 3.00 cm tall is placed 15.0 cm in front of the lens. 24.96.91.88 Do all of the following: [2 pts] Calculate the image distance for the above scenario. Enter its numerical value (in centimeters) in the answer box for this odd-numbered question. (You will also show your work in the even-numbered question that follows.) ● . [3 pts] Calculate the image height as well. Report this numerical value along with your work that leads to it in the even-numbered question that follows. Be sure to include appropriate units. • [5 pts] Draw a ray-tracing diagram to support your calculations. Use graph paper and a straight edge, and clearly label the object, image, lens plane, focal points, and scale of your diagram in order to receive full credit. (Include this with the work you submit in the even-numbered question that follows.)