e.) The two experimental magnifications results. Explain. geometrically related and should give the same are

Please answer part E. (Highlighted)

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PES 2150 - PHYSICS LABORATORY II b.) Find the experimental magnification (Mex) from the object distance (d.) and image distance (d:). The Experimental Magnification is -1.7 c.) Compare the theoretical magnification to the experimental magnification with a percent error calculation. |1.67 – 1.7| %error = x 100% = 1.80% 1.7 d.) Find the experimental magnification from the object height (h.) and image height (h.). hị Experimental Magnification 17 = -1.7 10 %3D ho e.) The two experimental magnifications are geometrically related and should give the same results. Explain. Indieate the sooleen vour lod Houm rev dioorom ofthe theoratioal oonficmration

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PES 2.) Using the intercept of your best-fit line, determine the focal length of the lens. Compare this calculated value (f) to the stated value of +250 mm with a percent error calculation. 0.00394 = 253.81 mm |253.81 - 250| %error = x 100% = 1.52% 250 253.81 mm 250 mm Percent error= 1.52 % 3.) Plotting 1/d vs 1/d seems like a strange thing to plot. Explain why these ratios were chosen. 4.) Data collected for the convex lens with the object located at a distance of 400 mm: Magnification Focal Length f +250 mm Object Distance d, +400 mm Image Distance d 680 mm Object Height h, 10 mm Image Height hi -17 mm a.) Calculate the expected (theoretical) value for the magnification (M) using focal length f) and object distance (d.). 1 1 1 f u 1 1 1 = 0.0015 400 250 1 = 666.67 0.0015 666.67 v m =- = -1.67 400 画