A diverging mirror has a focal length of f = 300 mm .
A) Calculate the image distance for an object located halfwaybetween the focal point and the mirror. Express your answer withthe appropriate units. Follow the sign convention.
B) Calculate the magnification for an object located halfwaybetween the focal point and the mirror. Express your answer usingthree significant digits. Follow the sign convention.
C) Calculate the image distance for an object located at thefocal point. Express your answer with the appropriate units. Followthe sign convention.
D) Calculate the magnification for an object located at thefocal point.
E) Calculate the image distance for an object located halfwaybetween the focal point and the center of curvature. Express youranswer with the appropriate units. Follow the sign convention.
F) Calculate the magnification for an object located halfwaybetween the focal point and the center of curvature.
G) Calculate the image distance for an object located at thecenter of curvature. Express your answer with the appropriateunits. Follow the sign convention.
H) Calculate the magnification for an object located at thecenter of curvature. Express your answer using three significantdigits. Follow the sign convention.
I) Calculate the image distance for an object located a distancef beyond the center of curvature. Express your answer with theappropriate units. Follow the sign convention.
J)Â Â Calculate the magnification for an object locateda distance f beyond the center of curvature.
K) Calculate the image distance for an object located atinfinity. Express your answer with the appropriate units. Followthe sign convention.
L) Calculate the magnification for an object located atinfinity.
