A space-based telescope can achieve a diffraction- imited angular resolution of 0.10" for red light (wavelength 680 nm). ▼ Part A What would the resolution of the instrument be in the infrared, at 4.9 μm ? Express your answer using two significant figures. 17 ΑΣΦ a = Submit Part B Request Answer α= ? What would the resolution of the instrument be in the ultraviolet, at 50 nm ? Express your answer using two significant figures. Dr. |VD ΑΣΦ arc seconds ? arc seconds
A space-based telescope can achieve a diffraction- imited angular resolution of 0.10" for red light (wavelength 680 nm). ▼ Part A What would the resolution of the instrument be in the infrared, at 4.9 μm ? Express your answer using two significant figures. 17 ΑΣΦ a = Submit Part B Request Answer α= ? What would the resolution of the instrument be in the ultraviolet, at 50 nm ? Express your answer using two significant figures. Dr. |VD ΑΣΦ arc seconds ? arc seconds
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Transcribed Image Text:A space-based telescope can achieve a diffraction-
limited angular resolution of 0.10" for red light
(wavelength 680 nm).
A
Part A
What would the resolution of the instrument be in the infrared, at 4.9 um ?
Express your answer using two significant figures.
-- ΑΣΦ
α =
Submit
Part B
Request Answer
α =
?
What would the resolution of the instrument be in the ultraviolet, at 50 nm ?
Express your answer using two significant figures.
195) ΑΣΦ
arc seconds
?
arc seconds
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