32x: Niebieski Ksiд™ејyc

Data suggests that the "Blue Moon" spectral shift was intensified by local particulate matter, which the 32x optics resolved as a distinct sapphire-tinted halo. 4. Conclusion

The use of the array confirms that mid-range magnification is superior for sustained lunar mapping. It provides the necessary clarity to distinguish between regolith textures without the narrow FOV constraints of planetary-grade eyepieces. Niebieski KsiД™Ејyc 32x

Utilizing the "Niebieski" (Blue) specialized coating to reduce spherical aberration and enhance the contrast of basaltic plains (Maria). 3. Key Observations Data suggests that the "Blue Moon" spectral shift

Observations were conducted using the primary optics. The 32x magnification was selected to provide: It provides the necessary clarity to distinguish between

The "Niebieski Księżyc 32x" configuration represents a specific optical threshold designed to balance field-of-view (FOV) with high-contrast resolution. This paper details the findings of a focused observation period targeting the lunar "Blue Moon" phenomenon—the second full moon in a calendar month—utilizing a 32x magnification factor to identify subtle surface anomalies. 2. Equipment and Methodology