Mars Out of Bounds Dates
Mars reaches ±27.2° during its fastest northern or southern arcs and goes out of bounds roughly every two years. OOB Mars tends to amplify solo initiative, endurance-sport phases, entrepreneurial pushes, and (without a conscious outlet) reckless intensity. This page lists every window across 1975 to 2075.
Upcoming Mars OOB windows
| Start | End | Duration | Peak | Direction |
|---|---|---|---|---|
| Aug 4, 2026 | Aug 29, 2026 | 26 days | +23° 43' | north (Aug 16, 2026) |
| Nov 6, 2027 | Dec 18, 2027 | 43 days | -24° 27' | south (Nov 27, 2027) |
| Jul 9, 2028 | Aug 10, 2028 | 33 days | +23° 54' | north (Jul 25, 2028) |
| Oct 11, 2029 | Nov 29, 2029 | 50 days | -24° 46' | south (Nov 5, 2029) |
| Jun 16, 2030 | Jul 24, 2030 | 39 days | +24° 05' | north (Jul 5, 2030) |
| Sep 6, 2031 | Nov 9, 2031 | 65 days | -25° 24' | south (Oct 9, 2031) |
| May 24, 2032 | Jul 6, 2032 | 44 days | +24° 15' | north (Jun 14, 2032) |
| Apr 4, 2033 | Oct 14, 2033 | 194 days | -28° 38' | south (Jul 22, 2033) |
| May 1, 2034 | Jun 19, 2034 | 50 days | +24° 28' | north (May 25, 2034) |
| Feb 22, 2035 | Mar 14, 2035 | 21 days | -23° 36' | south (Mar 4, 2035) |
| Apr 4, 2036 | Jun 1, 2036 | 59 days | +24° 45' | north (May 3, 2036) |
| Jan 23, 2037 | Feb 19, 2037 | 28 days | -23° 47' | south (Feb 6, 2037) |
| Feb 22, 2038 | May 13, 2038 | 81 days | +25° 14' | north (Apr 6, 2038) |
| Dec 31, 2038 | Jan 31, 2039 | 32 days | -23° 58' | south (Jan 15, 2039) |
| Sep 26, 2039 | Oct 16, 2039 | 21 days | +23° 29' | north (Oct 5, 2039) |
| Nov 10, 2039 | Apr 20, 2040 | 163 days | +27° 14' | north (Jan 22, 2040) |
| Dec 8, 2040 | Jan 12, 2041 | 36 days | -24° 09' | south (Dec 25, 2040) |
| Aug 15, 2041 | Sep 6, 2041 | 23 days | +23° 37' | north (Aug 26, 2041) |
| Nov 15, 2042 | Dec 25, 2042 | 41 days | -24° 21' | south (Dec 5, 2042) |
| Jul 19, 2043 | Aug 18, 2043 | 31 days | +23° 50' | north (Aug 3, 2043) |
| Oct 22, 2044 | Dec 6, 2044 | 46 days | -24° 37' | south (Nov 14, 2044) |
| Jun 25, 2045 | Jul 30, 2045 | 36 days | +24° 01' | north (Jul 12, 2045) |
| Sep 21, 2046 | Nov 16, 2046 | 57 days | -25° 05' | south (Oct 20, 2046) |
| Jun 2, 2047 | Jul 12, 2047 | 41 days | +24° 11' | north (Jun 22, 2047) |
| Apr 29, 2048 | Oct 24, 2048 | 179 days | -26° 23' | south (Sep 11, 2048) |
| May 9, 2049 | Jun 25, 2049 | 48 days | +24° 23' | north (Jun 1, 2049) |
| Mar 7, 2050 | Mar 26, 2050 | 20 days | -23° 34' | south (Mar 17, 2050) |
| Apr 15, 2051 | Jun 8, 2051 | 55 days | +24° 37' | north (May 12, 2051) |
| Feb 3, 2052 | Feb 27, 2052 | 25 days | -23° 43' | south (Feb 15, 2052) |
| Mar 13, 2053 | May 20, 2053 | 69 days | +25° 00' | north (Apr 17, 2053) |
| Jan 8, 2054 | Feb 6, 2054 | 30 days | -23° 54' | south (Jan 22, 2054) |
| Oct 10, 2054 | Apr 30, 2055 | 203 days | +26° 22' | north (Dec 24, 2054) |
| Dec 16, 2055 | Jan 19, 2056 | 35 days | -24° 05' | south (Jan 2, 2056) |
| Aug 28, 2056 | Sep 13, 2056 | 17 days | +23° 32' | north (Sep 5, 2056) |
| Jan 22, 2057 | Mar 28, 2057 | 66 days | +25° 04' | north (Feb 20, 2057) |
| Nov 23, 2057 | Dec 31, 2057 | 39 days | -24° 16' | south (Dec 12, 2057) |
| Jul 28, 2058 | Aug 24, 2058 | 28 days | +23° 45' | north (Aug 10, 2058) |
| Oct 31, 2059 | Dec 13, 2059 | 44 days | -24° 30' | south (Nov 22, 2059) |
| Jul 3, 2060 | Aug 5, 2060 | 34 days | +23° 57' | north (Jul 19, 2060) |
| Oct 4, 2061 | Nov 24, 2061 | 52 days | -24° 52' | south (Oct 30, 2061) |
| Jun 11, 2062 | Jul 19, 2062 | 39 days | +24° 07' | north (Jun 30, 2062) |
| Aug 24, 2063 | Nov 3, 2063 | 72 days | -25° 38' | south (Oct 1, 2063) |
| May 18, 2064 | Jul 1, 2064 | 45 days | +24° 18' | north (Jun 9, 2064) |
| Mar 24, 2065 | Oct 4, 2065 | 195 days | -28° 28' | south (Aug 4, 2065) |
| Apr 25, 2066 | Jun 14, 2066 | 51 days | +24° 31' | north (May 20, 2066) |
| Feb 14, 2067 | Mar 8, 2067 | 23 days | -23° 39' | south (Feb 25, 2067) |
| Mar 27, 2068 | May 27, 2068 | 62 days | +24° 49' | north (Apr 27, 2068) |
| Jan 17, 2069 | Feb 13, 2069 | 28 days | -23° 50' | south (Jan 31, 2069) |
| Feb 1, 2070 | May 8, 2070 | 97 days | +25° 25' | north (Mar 27, 2070) |
| Dec 25, 2070 | Jan 26, 2071 | 33 days | -24° 00' | south (Jan 10, 2071) |
| Sep 15, 2071 | Sep 26, 2071 | 12 days | +23° 29' | north (Sep 20, 2071) |
| Dec 13, 2071 | Apr 13, 2072 | 123 days | +26° 54' | north (Feb 2, 2072) |
| Dec 2, 2072 | Jan 7, 2073 | 37 days | -24° 11' | south (Dec 20, 2072) |
| Aug 8, 2073 | Aug 31, 2073 | 24 days | +23° 40' | north (Aug 19, 2073) |
| Nov 9, 2074 | Dec 20, 2074 | 42 days | -24° 24' | south (Nov 30, 2074) |
| Jul 13, 2075 | Aug 13, 2075 | 32 days | +23° 52' | north (Jul 28, 2075) |
Historical Mars OOB windows (1975-2075)
| Start | End | Duration | Peak | Direction |
|---|---|---|---|---|
| Jan 10, 1975 | Feb 8, 1975 | 30 days | -23° 53' | south (Jan 24, 1975) |
| Oct 14, 1975 | May 1, 1976 | 201 days | +26° 06' | north (Dec 21, 1975) |
| Dec 17, 1976 | Jan 19, 1977 | 34 days | -24° 04' | south (Jan 3, 1977) |
| Aug 31, 1977 | Sep 15, 1977 | 16 days | +23° 31' | north (Sep 7, 1977) |
| Jan 17, 1978 | Mar 31, 1978 | 74 days | +25° 24' | north (Feb 18, 1978) |
| Nov 25, 1978 | Jan 2, 1979 | 39 days | -24° 16' | south (Dec 14, 1978) |
| Jul 30, 1979 | Aug 26, 1979 | 28 days | +23° 45' | north (Aug 12, 1979) |
| Nov 1, 1980 | Dec 14, 1980 | 44 days | -24° 30' | south (Nov 23, 1980) |
| Jul 5, 1981 | Aug 7, 1981 | 34 days | +23° 56' | north (Jul 21, 1981) |
| Oct 6, 1982 | Nov 25, 1982 | 51 days | -24° 51' | south (Nov 1, 1982) |
| Jun 12, 1983 | Jul 21, 1983 | 40 days | +24° 07' | north (Jul 1, 1983) |
| Aug 27, 1984 | Nov 4, 1984 | 70 days | -25° 36' | south (Oct 3, 1984) |
| May 20, 1985 | Jul 3, 1985 | 45 days | +24° 18' | north (Jun 11, 1985) |
| Mar 27, 1986 | Oct 7, 1986 | 195 days | -28° 42' | south (Aug 2, 1986) |
| Apr 27, 1987 | Jun 16, 1987 | 51 days | +24° 30' | north (May 22, 1987) |
| Feb 16, 1988 | Mar 8, 1988 | 22 days | -23° 38' | south (Feb 27, 1988) |
| Mar 30, 1989 | May 29, 1989 | 61 days | +24° 49' | north (Apr 29, 1989) |
| Jan 19, 1990 | Feb 15, 1990 | 28 days | -23° 49' | south (Feb 2, 1990) |
| Feb 8, 1991 | May 10, 1991 | 92 days | +25° 22' | north (Mar 30, 1991) |
| Dec 27, 1991 | Jan 27, 1992 | 32 days | -24° 00' | south (Jan 12, 1992) |
| Sep 18, 1992 | Sep 27, 1992 | 10 days | +23° 28' | north (Sep 22, 1992) |
| Dec 7, 1992 | Apr 15, 1993 | 130 days | +27° 01' | north (Jan 30, 1993) |
| Dec 4, 1993 | Jan 9, 1994 | 37 days | -24° 11' | south (Dec 22, 1993) |
| Aug 10, 1994 | Sep 2, 1994 | 24 days | +23° 40' | north (Aug 21, 1994) |
| Nov 11, 1995 | Dec 22, 1995 | 42 days | -24° 24' | south (Dec 2, 1995) |
| Jul 14, 1996 | Aug 14, 1996 | 32 days | +23° 52' | north (Jul 29, 1996) |
| Oct 17, 1997 | Dec 3, 1997 | 48 days | -24° 41' | south (Nov 10, 1997) |
| Jun 21, 1998 | Jul 27, 1998 | 37 days | +24° 03' | north (Jul 9, 1998) |
| Sep 16, 1999 | Nov 13, 1999 | 59 days | -25° 13' | south (Oct 16, 1999) |
| May 29, 2000 | Jul 10, 2000 | 43 days | +24° 13' | north (Jun 19, 2000) |
| Apr 15, 2001 | Oct 20, 2001 | 189 days | -27° 02' | south (Aug 25, 2001) |
| May 6, 2002 | Jun 23, 2002 | 49 days | +24° 25' | north (May 30, 2002) |
| Mar 2, 2003 | Mar 20, 2003 | 19 days | -23° 34' | south (Mar 11, 2003) |
| Apr 10, 2004 | Jun 5, 2004 | 57 days | +24° 40' | north (May 8, 2004) |
| Jan 29, 2005 | Feb 23, 2005 | 26 days | -23° 45' | south (Feb 10, 2005) |
| Mar 7, 2006 | May 18, 2006 | 73 days | +25° 06' | north (Apr 13, 2006) |
| Jan 5, 2007 | Feb 4, 2007 | 31 days | -23° 56' | south (Jan 20, 2007) |
| Oct 5, 2007 | Apr 25, 2008 | 204 days | +26° 59' | north (Jan 7, 2008) |
| Dec 12, 2008 | Jan 16, 2009 | 36 days | -24° 06' | south (Dec 30, 2008) |
| Aug 22, 2009 | Sep 10, 2009 | 20 days | +23° 34' | north (Sep 1, 2009) |
| Feb 13, 2010 | Mar 16, 2010 | 32 days | +23° 52' | north (Feb 28, 2010) |
| Nov 20, 2010 | Dec 29, 2010 | 40 days | -24° 18' | south (Dec 10, 2010) |
| Jul 25, 2011 | Aug 22, 2011 | 29 days | +23° 47' | north (Aug 7, 2011) |
| Oct 27, 2012 | Dec 10, 2012 | 45 days | -24° 33' | south (Nov 18, 2012) |
| Jun 30, 2013 | Aug 3, 2013 | 35 days | +23° 58' | north (Jul 17, 2013) |
| Sep 30, 2014 | Nov 21, 2014 | 53 days | -24° 57' | south (Oct 26, 2014) |
| Jun 8, 2015 | Jul 17, 2015 | 40 days | +24° 09' | north (Jun 27, 2015) |
| Aug 10, 2016 | Oct 30, 2016 | 82 days | -25° 54' | south (Sep 24, 2016) |
| May 15, 2017 | Jun 29, 2017 | 46 days | +24° 20' | north (Jun 7, 2017) |
| Mar 17, 2018 | Apr 9, 2018 | 24 days | -23° 34' | south (Mar 28, 2018) |
| Jul 8, 2018 | Sep 25, 2018 | 80 days | -26° 33' | south (Aug 16, 2018) |
| Apr 22, 2019 | Jun 12, 2019 | 52 days | +24° 34' | north (May 17, 2019) |
| Feb 10, 2020 | Mar 3, 2020 | 23 days | -23° 41' | south (Feb 21, 2020) |
| Mar 23, 2021 | May 25, 2021 | 64 days | +24° 54' | north (Apr 23, 2021) |
| Jan 14, 2022 | Feb 11, 2022 | 29 days | -23° 52' | south (Jan 28, 2022) |
| Oct 23, 2022 | May 5, 2023 | 195 days | +25° 36' | north (Mar 20, 2023) |
| Dec 22, 2023 | Jan 24, 2024 | 34 days | -24° 02' | south (Jan 7, 2024) |
| Sep 7, 2024 | Sep 20, 2024 | 14 days | +23° 30' | north (Sep 13, 2024) |
| Dec 31, 2024 | Apr 8, 2025 | 99 days | +26° 17' | north (Feb 10, 2025) |
| Nov 29, 2025 | Jan 5, 2026 | 38 days | -24° 13' | south (Dec 17, 2025) |
Dates computed from NASA’s DE440s ephemeris (ANISE toolkit) at daily cadence; start and end resolve to the day a body first or last crossed ±23°26’.
Mars's out-of-bounds pattern follows its synodic cycle: the fast northern arcs around the summer solstice and fast southern arcs around the winter solstice both have the potential to break the obliquity threshold, depending on the body's current ecliptic latitude. When Mars is near its perihelion the OOB window stretches; when it's near aphelion the arc stays within bounds entirely.
Kt Boehrer (1994) documented Mars OOB in natal charts as a reliable marker for athletes, combat professionals, and solo wilderness workers. In transit it correlates with sustained pushes that tolerate an unusual amount of discomfort before course-correcting. The modern reading is simpler: a Mars OOB transit is a good time to start something that requires you to override normal risk signals, and a bad time to keep pushing on something that already should have stopped.
The longest single Mars OOB window in recent memory was 2022-08-18 through 2023-06-08 (almost 10 months, retrograde-extended), peaking at +26.5° on 2022-12-24. That window coincided with the opening of the Ukraine war's second year, the first wave of public ChatGPT usage, and a broad cultural shift in attitudes toward endurance sports and extreme work. Next extended window is in 2037.
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More Free Tools
Out of Bounds Calculator
Find every out-of-bounds planet in your birth chart. OOB planets sit past the Sun's ±23°26' envelope and act like archetypes off-leash.
Declination Graph
Plot the declination of the Moon, Mercury, Venus, Mars, and Pluto over any time window. Watch out-of-bounds excursions and parallel crossings.
Pluto Out-of-Bounds Dates
Every Pluto out-of-bounds window from 1900 to 2100 with peak declination dates for each cycle. Pluto is currently OOB from 2024 through 2040.
Frequently Asked Questions
What is declination in astrology?
Declination is a body's angular distance north or south of the celestial equator, measured in degrees. Unlike zodiac longitude, it is a physical sky coordinate, so it does not depend on house system, tropical vs sidereal zodiac, or any other framing choice. Every chart has both a longitudinal axis and a declination axis.
What does 'out of bounds' mean?
A planet is out of bounds when its absolute declination exceeds the Sun's own maximum of about 23°26' (the obliquity of the ecliptic at J2000). Moon, Mercury, Venus, Mars, and Pluto can all go OOB; Jupiter, Saturn, Uranus, and Neptune cannot. An OOB body behaves as if it has stepped outside the Sun's envelope and is operating on its own rules.
What is a parallel aspect?
Two planets are parallel when they share the same declination within a 1° orb (north-north or south-south). Parallels behave as declination-axis conjunctions and often show strong affinity even when no zodiacal aspect is present. Traditional sources including Ptolemy, Kepler, and Sepharial treated parallels as important on their own.
What is a contraparallel?
A contraparallel occurs when two planets have equal but opposite declinations (for example +12° and -12°) within a 1° orb. It functions as a declination-axis opposition: the bodies are matched in intensity but poled against each other across the celestial equator.
Why aren't all the planets in the out-of-bounds table?
Jupiter, Saturn, Uranus, and Neptune orbit close to the ecliptic, so they cannot exceed obliquity and never go out of bounds. Pluto is the exception because its orbit is tilted ~17°, which combines with the 23.4° ecliptic tilt to push its declination past 23.4° for roughly one quarter of its 248-year orbit.
Does house system affect declination?
No. Declination is a physical equatorial coordinate. It does not depend on Placidus, Whole Sign, Porphyry, Koch, Campanus, Regiomontanus, or any other house system. This makes declination useful when a birth time is uncertain, because house-dependent signals are the first to degrade under time error and declination is not one of them.
Is a contraparallel the same as an antiscion?
No. A contraparallel matches bodies by declination across the celestial equator. An antiscion matches bodies by ecliptic longitude reflected across the Cancer-Capricorn solstice axis. They often point at the same body pairs but they are computed on different axes and carry slightly different meanings.
How accurate are the declinations on this page?
We compute declinations from NASA's DE440s ephemeris (via the ANISE / JPL toolkit) to arcsecond precision. Out-of-bounds status is flagged at the ±23.4393° J2000 threshold; epoch-of-date obliquity drifts by about 0.013° per century from this value, which is well below the resolution of any traditional OOB claim.