bgcolor=#e7dcc3 colspan=2 | Partial Lunar Eclipse July 6, 2028 | ||
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The moon passes west to east (right to left) across the Earth's umbral shadow, shown in hourly intervals. | |||
align=center bgcolor=#c0d0e0 | Series | 120 (59 of 84) | |
align=center bgcolor=#c0d0e0 | Gamma | -0.7903 | |
align=center bgcolor=#c0d0e0 | Magnitude | 0.3892 | |
align=center bgcolor=#c0b0e0 colspan=2 | Duration (hr:mn:sc) | ||
align=center bgcolor=#c0a0e0 | Partial | 2:21:30 | |
align=center bgcolor=#d0d0e0 | Penumbral | 5:10:38 | |
align=center bgcolor=#a0d0e0 colspan=2 | Contacts | ||
align=center bgcolor=#d0d0e0 | P1 | 15:44:21 UTC | |
align=center bgcolor=#c0a0e0 | U1 | 17:08:51 | |
align=center bgcolor=#a0a0e0 | Greatest | 18:19:41 | |
align=center bgcolor=#c0a0e0 | U4 | 19:30:21 | |
align=center bgcolor=#d0d0e0 | P4 | 20:54:59 |
It will be completely visible over much of Asia, Australia, and eastern Africa, and will be seen rising over the rest of Africa and eastern Europe.
A lunar eclipse will be preceded and followed by solar eclipses by 9 years and 5.5 days (a half saros).[2] This lunar eclipse is related to two total solar eclipses of Solar Saros 127.