Thin lenses . Object O stands on the central axis of a thin, symmetric lens. The
ID: 2242695 • Letter: T
Question
Thin lenses. Object O stands on the central axis of a thin, symmetric lens. The table refers to the object distance p, the focal distance f, the image distance i and the magnification m. Fill in the missing information, including signs. p (cm) f (cm) i (cm) m +18 1 2 +1.26 Describe the lens and image. (Select all that apply.) 3 converging lensdiverging lensreal imagevirtual imageupright imageinverted imageimage on same side of lens as Oimage on opposite side of lens I cant seam to get this right PLEASE HELP! p (cm) f (cm) i (cm) m +18 1 2 +1.26 3 converging lensdiverging lensreal imagevirtual imageupright imageinverted imageimage on same side of lens as Oimage on opposite side of lens I cant seam to get this right PLEASE HELP! 3 converging lensdiverging lensreal imagevirtual imageupright imageinverted imageimage on same side of lens as Oimage on opposite side of lens I cant seam to get this right PLEASE HELP! p (cm) f (cm) i (cm) m +18 1 2 +1.26Explanation / Answer
The value of focal length has a negative sign and the value of object distance is 18 cm. the value of image distance is -22.68 cm. hence the image will be virtual. As the image distance is negative, it will be formed on the same side of the object. Due to these properties, the lens will be diverging.
The value of magnification is positive. Hence the image will be upright.
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