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  1. Home
  2. Asteroids
  3. 2018 XC
Low Threat

2018 XC

NEO Reference ID: 3836709

View on NASA JPL

Threat Assessment: Low

No significant threat

Physical Characteristics

Diameter (min)

19.3 m

0.019 km

Diameter (max)

43.1 m

0.043 km

Absolute Magnitude

25.70

H (mag)

Sentry Object

No

Not being monitored

Orbital Parameters

Semi-Major Axis

0.7899 AU

Eccentricity

0.403605

Inclination

21.3276 deg

Orbital Period

256.45 days

Perihelion Distance

0.4711 AU

Aphelion Distance

1.1088 AU

Jupiter Tisserand

7.251

MOID

0.013051 AU

Orbit Uncertainty

6

Orbit Class

ATE

Near-Earth asteroid orbits similar to that of 2062 Aten

Range: a (semi-major axis) < 1.0 AU; q (perihelion) > 0.983 AU

Orbit ID

5

Data Arc

7 days

Observations

48

First Observed

2018-12-03

Last Observed

2018-12-10

Close Approach History (66)

DateDistance (km)Distance (AU)Distance (LD)Velocity (km/s)Orbiting Body
2105-Dec-02 16:1217,517,8530.11710045.5517.20Earth
2098-Dec-01 02:194,802,2450.03210112.4915.06Earth
2065-Dec-02 14:4825,500,6660.17046166.3118.68Earth
2058-Dec-01 04:0311,254,0800.07522929.2616.09Earth
2052-May-03 05:1770,700,5010.472604183.8420.17Earth
2051-Dec-01 10:162,110,1910.0141065.4914.28Earth
2050-Jan-26 23:4053,514,9000.357725139.1614.52Earth
2048-Feb-29 20:328,966,8610.05994023.3220.56Merc
2047-Jun-26 04:0513,937,3440.09316536.2419.78Merc
2046-Dec-13 03:0271,364,2890.477041185.5728.15Earth
2045-Apr-21 00:3067,576,4220.451720175.7217.82Earth
2044-Dec-04 07:2316,162,6140.10804042.0312.69Earth
2043-Jan-29 01:3761,990,8160.414383161.1918.17Earth
2039-Dec-08 20:1653,729,4530.359159139.7124.35Earth
2039-Sep-28 15:344,186,7840.02798710.8918.15Merc
2038-Apr-05 03:0063,764,1370.426237165.8114.50Earth
2037-Dec-14 02:1629,847,4940.19951877.6112.26Earth
2036-Jan-26 06:5574,310,9250.496738193.2322.39Earth
2032-Dec-03 21:3734,825,9250.23279790.5620.49Earth
2031-Apr-26 18:252,160,6880.0144435.6217.12Merc
2030-Dec-28 08:3640,397,0640.270038105.0412.38Earth
2026-May-15 23:4673,698,9850.492647191.6422.12Earth
2025-Dec-01 04:4915,858,1100.10600541.2416.90Earth
2024-Jan-14 10:0147,704,2730.318883124.0512.71Earth
2022-Nov-23 06:393,425,8360.0229008.9116.57Merc
2019-May-03 17:2170,628,3580.472121183.6620.11Earth
2018-Dec-01 02:532,480,6180.0165826.4514.19Earth
2018-Oct-28 21:3921,375,6360.14288755.5816.41Venus
2017-Jan-27 14:5954,377,5650.363492141.4014.94Earth
2014-Jun-20 05:114,314,1410.02883811.2216.51Merc
2013-Dec-11 13:2866,837,9320.446784173.8027.17Earth
2013-Nov-26 06:1921,335,7640.14262155.4817.11Venus
2012-Apr-15 20:1866,343,4330.443478172.5116.83Earth
2011-Dec-07 14:3421,129,7160.14124354.9412.42Earth
2010-Jan-27 22:3966,564,8470.444959173.0919.83Earth
2008-Dec-24 17:5821,706,9080.14510256.4417.88Venus
2006-Dec-06 07:4544,352,8410.296480115.3322.39Earth
2006-Jan-12 05:472,410,3250.0161126.2716.73Merc
2005-Mar-23 06:5061,177,5390.408947159.0811.71Earth
2004-Dec-21 03:0336,101,3130.24132293.8712.29Earth
2000-May-19 19:0774,732,9810.499559194.3322.74Earth
1999-Dec-02 09:0822,152,6380.14808157.6018.02Earth
1998-Jan-08 20:1745,825,0730.306322119.1612.53Earth
1997-Aug-07 03:212,199,6910.0147045.7217.09Merc
1993-May-05 09:0871,121,9540.475421184.9420.49Earth
1992-Nov-30 08:182,386,7550.0159546.2114.57Earth
1991-Jan-25 14:5252,289,4230.349533135.9714.06Earth
1987-Dec-13 23:1974,566,3260.498445193.9028.85Earth
1985-Dec-03 04:1312,932,5320.08644933.6312.93Earth
1984-Jan-29 04:5959,393,0410.397018154.4417.23Earth
1980-Dec-09 00:2358,542,0210.391329152.2325.38Earth
1977-Jan-26 09:3969,947,8570.467573181.8921.02Earth
1973-Dec-05 06:2441,370,6800.276546107.5821.79Earth
1966-Dec-02 05:1723,672,2020.15823961.5518.29Earth
1952-Dec-01 06:577,527,8610.05032119.5713.47Earth
1951-Jan-28 09:2156,257,8380.376060146.2915.90Earth
1949-Apr-22 20:2821,584,4040.14428356.1316.14Venus
1948-Jun-14 02:4110,203,5520.06820726.5321.20Merc
1947-Dec-11 03:1664,537,5920.431407167.8226.66Earth
1947-Oct-09 08:1612,694,3490.08485633.0119.20Merc
1946-Apr-15 04:0966,308,8710.443247172.4216.67Earth
1945-Dec-07 07:5821,562,5050.14413656.0712.42Earth
1944-May-21 06:2221,857,0700.14610556.8418.00Venus
1944-Jan-27 23:5665,894,6890.440479171.3519.67Earth
1940-Dec-06 04:4847,406,6120.316894123.2723.02Earth
1933-Dec-02 20:3229,975,4070.20037377.9519.49Earth

Frequently Asked Questions

How is asteroid size estimated?
Asteroid sizes are estimated primarily from their absolute magnitude (H), which measures intrinsic brightness. Since brightness depends on both size and surface reflectivity (albedo), scientists use assumed albedo values to convert H into a diameter range. A typical near-Earth asteroid has an albedo of 0.05 to 0.25. Radar observations from facilities like Goldstone can provide more precise size measurements by bouncing radio waves off the asteroid and analyzing the returned signal. Spacecraft flybys and occultation events (when an asteroid passes in front of a star) provide the most accurate measurements but are rare.
What do the orbital parameters mean?
Orbital parameters describe the shape, size, and orientation of an asteroid's path around the Sun. The semi-major axis is half the longest diameter of the elliptical orbit, measured in astronomical units (AU). Eccentricity describes how elongated the orbit is (0 = perfect circle, closer to 1 = highly elliptical). Inclination is the angle between the asteroid's orbital plane and Earth's orbital plane. Perihelion is the closest point to the Sun, aphelion is the farthest. The orbital period is how long one complete orbit takes. The Jupiter Tisserand invariant helps classify the object's dynamical relationship with Jupiter.
What does "potentially hazardous" actually mean?
An asteroid is classified as "potentially hazardous" (PHA) by NASA when it meets two specific criteria: its estimated diameter is 140 meters or larger (absolute magnitude H of 22.0 or less), and its minimum orbit intersection distance (MOID) with Earth is 0.05 AU (about 7.5 million kilometers) or less. This classification is based on orbital geometry, not an imminent collision threat. It means the asteroid's orbit could theoretically bring it close enough to Earth to be concerning if its trajectory were to change due to gravitational perturbations. Most PHAs have well-understood orbits with no significant impact probability in the foreseeable future.
How accurate are close approach predictions?
Close approach predictions vary in accuracy depending on the quality and quantity of observations. Well-observed asteroids with long data arcs (many years of tracking) have extremely precise orbit calculations -- their positions can be predicted to within a few kilometers over decades. Newly discovered asteroids with short data arcs may have uncertainties of thousands of kilometers. The "orbit uncertainty" parameter (0-9 scale) indicates this precision, with 0 being the most certain. NASA's Sentry system continuously recalculates impact probabilities as new observations refine each asteroid's orbit.

Related

Asteroid Dashboard

View all near-Earth objects

Today's Close Approaches

Live data, no caching

NASA JPL Database

Official NASA page for this asteroid

Solar System Explorer

Planets, moons & orbits

Space Glossary

NEO, PHA, MOID & more terms

Mars Exploration

Rover photos & mission data

Asteroid Classification

Aten asteroids have semi-major axes smaller than 1.0 AU and aphelion distances greater than 0.983 AU, meaning they spend most of their time inside Earth's orbit but can cross it. Named after 2062 Aten, they are harder to detect because they often appear close to the Sun in the sky.

Key Terms

PHA (Potentially Hazardous Asteroid)

NEA with MOID ≤ 0.05 AU and absolute magnitude H ≤ 22 (diameter ≥ ~140m).

MOID (Minimum Orbit Intersection Distance)

The closest possible distance between two orbits, regardless of where the objects are along their paths.

Absolute Magnitude (H)

A measure of an asteroid's intrinsic brightness. Lower H values mean larger and/or more reflective objects.

Lunar Distance (LD)

Average distance from Earth to the Moon (~384,400 km). Used to express asteroid miss distances in human-relatable terms.

Did You Know?

NASA's DART mission in 2022 was the first-ever test of planetary defense technology. By crashing a spacecraft into the moonlet Dimorphos, NASA changed its orbital period by 33 minutes -- far exceeding the minimum benchmark of 73 seconds -- proving that kinetic deflection is a viable strategy for protecting Earth from hazardous asteroids.