Compare the experimental values of the focal length of the concave lens from the two figures. Calculate the relative deviation in focal lengtth with respect to the value obtained from the yellow table. Explain whhy you got this value. 

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Concave-Convex lens combination *not in contact* Distance of object from convex lens 1 (cm) Distance of first image from convex lens 1 (cm) Measured magnification of first image Distance of convex lens 1 from concave lens (cm) Distance of first image from the concave lens (cm) Distance of final image from the concave lens (cm) Calculated magnification of final image (compared to the original object) Reduced/Magnified? Real/Virtual? Upright/Inverted? Experimental focal length of the concave lens (cm) Description of final image Theoretical focal length of the concave lens (cm) Percent Deviation (%) 13.3 16.5 -1.3 10 -6.5 10.5 2 Magnified Real Inverted -17 -15 13.7

Transcribed Image Text:

Concave-convex lens combination *in-contact* Distance of object from the lenses (cm) Distance of image from the lenses (cm) Equivalent focal length of the lenses (cm) Calculated magnification of the image (compared to the original object) Measured magnification of final image (compared to the original object) Experimental focal length of the concave lens (cm) Theoretical focal length of the concave lens (cm) Percent Deviation (%) 30.8 21.5 12.63 -0.7 -0.778 -18 -15 20.29