Part A Once dark adapted, the pupil of your eye is approximately 7.0 mm in diameter. The headlights of an oncoming car are 120 cm apart. If the lens of your eye is diffraction limited, at what distance are the two headlights marginally resolved? Assume a wavelength of 580 nin and that the index of refraction inside the eye is 1.33. (Your eye is not really good enough to resolve headlights at this distance, due both to aberrations in the lens and to the size of the receptors in your retina, but it comes reasonably close.) Express your answer with the appropriate units. ? d= Value UnitsPart A The Hubble Space Telescope has a mirror diameter of 2.4 In. Suppose the telescope is used to photograph stars near the center of our galaxy. 30,000 light years away. using red light with a wavelength of 740 nm . What's the distance (in KIll) between two stars that are marginally resolved? The resolution of a reflecting telescope is calculated exactly the same as for a refracting telescope. For help with math skills, you may want to review: Express your answer in kilometers. Rearrangement of Equations Involving Multiplication and View Available Hint(s) Division Conversion Factors d = km Submit Part B For comparison, what is this distance as a multiple of the distance of Jupiter from the sun? Express your answer as a multiple of the distance of Jupiter from the sun. View Available Hint(s) OE ? d= Jupiter