A system of two converging lenses forms an image of an arrow as shown. The first lensis located at x = 0 and has a focal length of f₁ = 8.8 cm. The second lens is located at x= x2 = 58.13 cm and has a focal length of f2 = 21 cm. The tip of the object arrow islocated at (x,y) = (xo,Y)= (-12.3 cm, 6.9 cm).AY(X,Y)1) What is x₁, the x-coordinate of image of the arrow formed by the first lens?cm Submit2) What is y₁, the y-coordinate of the image of the tip of the arrow formed by the firstlens?cm SubmitVirtual and InvertedVirtual and UprightSubmitX₂cm SubmitX3) What is x3, the x co-ordinate of image of the arrow formed by the two lens system?cm Submit5) What is the nature of the final image relative to the object?Real and InvertedReal and Upright++++4) What is y3, the y-coordinate of the image of the tip of the arrow formed by the twolens system?+6) Which of the following changes to the locations of the lenses would result in avirtual and inverted image of the original object arrow?+++Move the first lens to x = -7.9 cm, keeping the second lens at x = 58.13 cm.Move the second lens to x = 68.63 cm, keeping the first lens at x = 0.Move the second lens to x = 41.4257142857143 cm, keeping the first lens at x = 0.None of the above moves will produce a virtual inverted image of the object arrow.

Given data : First lens located at x = 0 cm Focal length of first lens f1 = 8.8 cm Second lens…

Answered: A system of two converging lenses forms…

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