ide of the lens) 40.0 mm from the ions? In order to receive credit

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A. Magnification: Consider a simple lens, with a focal length of 3.2 cm, which is being used to create a magnified image of a point object (= a dot). This point object is located on the optic axis in object space (left side of the lens) 40.0 mm from the lens. By how much would the object be magnified under these conditions? In order to receive credit, you must show each step of your calculations. Pay particular attention to formulas, units, conversion factors, unit cancellations, and significant figures. B. Chromatic Aberration: Draw a ray tracing diagram that accurately illustrates the behavior of the lens described in Part A above if it exhibits uncorrected chromatic aberration in the imaging of the point object on the optic axis. Illustrate this with three pairs of rays (for blue, green and red wavelengths), labeling each set of rays with the name of the appropriate color. Consider the lens to be free of other aberrations. Use a millimeter scale and a straight edge to make the diagram accurate with respect to the positions of the object, image, and the principal foci. The lens axis and optic axis should be shown and each ray should be carefully drawn as a straight line. For simplicity, the lens may be represented by a vertical line. Label each element of the diagram so that no ambiguity exists. Photograph the drawing with a scaled ruler in the field of view along the bottom of the diagram parallel to the optic axis (perpendicular to the lens axis). Attach your scale drawing to your problem set response. C. Spherical Aberration: Draw a ray tracing diagram that accurately illustrates the behavior of the lens described in Part A above if it exhibits uncorrected spherical aberration in producing the magnified image of the point object on the optic axis. Illustrate this with three pairs of rays. Consider the lens to be free of other aberrations. Use a millimeter scale and a straight edge to make the diagram accurate with respect to the positions of the object, image, and the principal foci. The lens axis and optic axis should be shown, and each ray should be carefully drawn as a straight line. For simplicity, the lens may be represented by a vertical line. Label each element of the diagram so that no ambiguity exists. Photograph the drawing with a scaled ruler in the field of view along the bottom of the diagram parallel to the optic axis (perpendicular to the lens axis). Attach your scale drawing to your problem set response.