A screen is placed a distance d = 42.0 cm to the right of a small object. At what two distances to the right of the object can a converging lens of focal length +5,80 cm be placed if the real image of the object is at the location of the screen? sf S-f (Hint: Use the thin lens equation in the form s' = so s's -) = sf. Write s'= d-s and solve for s in the resulting quadratic equation.) 139 41.862 shorter distance X cm longer distance X cm For this lens, what is the smalliest value d can have and an image be formed on the screen? 232 cm Additional Materials O Thin Lenses

i need the shorter and longer distances.

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A screen is placed a distance d = 42.0 cm to the right of a small object. At what two distances to the right of the object can a converging lens of focal length +5,80 cm be placed if the real image of the object is at the location of the screen? sf (Hint: Use the thin lens equation in the form s' = so s'(s - n = st. Write s'=d-s and solve for s in the resulting quadratic equation.) 139 41.862 shorter distance X cm longer distance X cm For this lens, what is the smallest value d can have and an image be formed on the screen? 23 2 cm Additional Materials O Thin Lenses