4. Pluto and its moon Nix are separated by 48700 km. An undergraduate researcher wants to determine if the 5.08 m diameter Mount Palomar telescope can resolve the bodies when they are 6.40x109 km from Earth. Assume an average wavelength of 535 nm for the light. To determine the answer, calculate the ratio of the telescope’s angular resolution θT to the angular separation θP N of the celestial bodies. 4. Pluto and its moon Nix are separated by 48700 km. An undergraduate researcher wants to determineif the 5.08 m diameter Mount Palomar telescope can resolve the bodies when they are 6.40x10⁹ kmfrom Earth. Assume an average wavelength of 535 nm for the light. To determine the answer, calculatethe ratio of the telescope's angular resolution 7 to the angular separation PN of the celestial bodies.

Given, Distance between pluto and its moon nix = 48700 km Diameter of the telescope, D = 5.08 m…

Pluto and its moon Nix are separated by 48700 km. An undergraduate researcher wants to determine if the 5.08 m diameter Mount Palomar telescope can resolve the bodies when they are 6.40x109 km from Earth. Assume an average wavelength of 535 nm for the light. To determine the answer, calculate the ratio of the telescope’s angular resolution θT to the angular separation θP N of the celestial bodies.

Pluto and its moon Nix are separated by 48700 km. An undergraduate researcher wants to determine if the 5.08 m diameter Mount Palomar telescope can resolve the bodies when they are 6.40x109 km from Earth. Assume an average wavelength of 535 nm for the light. To determine the answer, calculate the ratio of the telescope’s angular resolution θT to the angular separation θP N of the celestial bodies.

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Question

4. Pluto and its moon Nix are separated by 48700 km. An undergraduate researcher wants to determine if the 5.08 m diameter Mount Palomar telescope can resolve the bodies when they are 6.40x109 km from Earth. Assume an average wavelength of 535 nm for the light. To determine the answer, calculate the ratio of the telescope’s angular resolution θT to the angular separation θP N of the celestial bodies.