Continuing with the previous question... Imagine four narrow-band detectors are available to integrate into your space-based sensor. Assuming the sensitivity of the detectors are the same, which wavelength would provide the largest signal to detect the target? Hint: Consider the target's emission and atmospheric absorption as a function of wavelength. O A. 1.0 µm B. 2.2 µm

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Continuing with the previous question.. Imagine four narrow-band detectors are available to integrate into your space-based sensor. Assuming the sensitivity of the
detectors are the same, which wavelength would provide the largest signal to detect the target?
Hint: Consider the target's emission and atmospheric absorption as a function of wavelength.
Α. 1.0 μm
B. 2.2 µm
C. 6.0 μm
D. 8.5 μm
Transcribed Image Text:Continuing with the previous question.. Imagine four narrow-band detectors are available to integrate into your space-based sensor. Assuming the sensitivity of the detectors are the same, which wavelength would provide the largest signal to detect the target? Hint: Consider the target's emission and atmospheric absorption as a function of wavelength. Α. 1.0 μm B. 2.2 µm C. 6.0 μm D. 8.5 μm
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