4. Using the thin lens equation, calculate the location of the image from each lens of the Galilean telescope you made with the -10cm and +30 cm lens combination. Describe the first image (I1) from the 30cm lens as virtual/real, upright/inverted and magnified/reduced. Then describe the final image's (I2) location, s2'. Does it make sense for viewing the final image with a relaxed eye?

4. Using the thin lens equation, calculate the location of the image from each lens of the Galilean telescope you made with the -10cm and +30 cm lens combination. Describe the first image (I1) from the 30cm lens as virtual/real, upright/inverted and magnified/reduced. Then describe the final image's (I2) location, s2'. Does it make sense for viewing the final image with a relaxed eye?

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Question

4. Using the thin lens equation, calculate the location of the image from each lens of the Galilean
telescope you made with the -10cm and +30 cm lens combination. Describe the first image (I1) from the
30cm lens as virtual/real, upright/inverted and magnified/reduced. Then describe the final image's (I2)
location, s2'. Does it make sense for viewing the final image with a relaxed eye?

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