Key Facts
- Categorized as a Aten-class Asteroid
- Comparable in size to a school bus or smaller
- Will pass within 3,031,754 km of Earth in 2019
- Classified as a Near Earth Asteroid (NEA)
- Not a Potentially Hazardous Object
- See orbit simulation
Overview
2017 SL16 is a very small asteroid whose orbit could bring it in close proximity to Earth. NASA JPL has classified 2017 SL16 as a "Near Earth Asteroid" due to its orbit's proximity to Earth, but it is not considered potentially hazardous because computer simulations have not indicated any imminent likelihood of future collision.
2017 SL16 orbits the sun every 363 days (0.99 years), coming as close as 0.85 AU and reaching as far as 1.15 AU from the sun. Based on its brightness and the way it reflects light, 2017 SL16 is probably between 0.011 to 0.051 kilometers in diameter, making it a small to average asteroid, very roughly comparable in size to a school bus or smaller.
The rotation of 2017 SL16 has been observed. It completes a rotation on its axis every 0.32 hours.
Close Approaches
2017 SL16's orbit is 0.02 AU from Earth's orbit at its closest point. This means that there is a wide berth between this asteroid and Earth at all times.
2017 SL16 has 34 close approaches predicted in the coming decades:
| Date | Distance from Earth (km) | Velocity (km/s) |
|---|---|---|
| Sept. 21, 2019 | 3,031,754 | 6.471 |
| Sept. 20, 2020 | 3,398,677 | 6.397 |
| Sept. 20, 2021 | 4,893,432 | 6.116 |
| Sept. 21, 2022 | 7,919,187 | 5.705 |
| Sept. 23, 2023 | 12,009,720 | 5.302 |
| Sept. 28, 2024 | 16,651,783 | 5.042 |
| Oct. 7, 2025 | 21,187,968 | 5.001 |
| July 28, 2026 | 29,382,722 | 4.245 |
| Oct. 19, 2026 | 25,200,964 | 5.085 |
| Oct. 31, 2027 | 28,497,035 | 5.146 |
| May 4, 2032 | 28,413,547 | 5.960 |
| April 22, 2033 | 25,628,530 | 5.878 |
| April 11, 2034 | 22,314,741 | 5.743 |
| March 31, 2035 | 18,612,815 | 5.636 |
| March 21, 2036 | 14,765,060 | 5.673 |
| March 14, 2037 | 11,206,643 | 5.933 |
| March 10, 2038 | 8,740,572 | 6.375 |
| March 6, 2039 | 8,263,919 | 6.956 |
| March 2, 2040 | 10,452,013 | 7.726 |
| Feb. 27, 2041 | 14,981,825 | 8.712 |
| Feb. 24, 2042 | 20,841,609 | 9.855 |
| Feb. 21, 2043 | 27,486,500 | 11.147 |
| Sept. 25, 2141 | 26,143,634 | 11.057 |
| Sept. 23, 2142 | 19,082,901 | 9.789 |
| Sept. 22, 2143 | 12,562,028 | 8.633 |
| Sept. 21, 2144 | 7,151,508 | 7.694 |
| Sept. 21, 2145 | 3,686,876 | 7.087 |
| Sept. 21, 2146 | 2,790,210 | 6.848 |
| Sept. 21, 2147 | 3,013,295 | 6.913 |
| Sept. 20, 2148 | 5,149,780 | 7.353 |
| Sept. 21, 2149 | 9,782,659 | 8.124 |
| Sept. 22, 2150 | 15,804,806 | 9.176 |
| Sept. 24, 2151 | 22,562,711 | 10.375 |
| Sept. 25, 2152 | 29,856,568 | 11.704 |
Images and Observations
2017 SL16's orbit is determined by observations dating back to Sept. 24, 2017. It was last officially observed on Oct. 5, 2021. The IAU Minor Planet Center records 76 observations used to determine its orbit.
Accessibility and Exploration
2017 SL16 can be reached with a journey of 362 days. This trajectory would require a delta-v of 7.367 km/s. To put this into perspective, the delta-v to launch a rocket to Low-Earth Orbit is 9.7 km/s. There are 556,851 potential trajectories and launch windows to this asteroid.
See more at the NHATS Mission Trajectories table for 2017 SL16.
Similar Objects
These objects have orbits that share similar characteristics to the orbit of 2017 SL16:References
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or view a random objectOrbital Elements
- Epoch: 2460200.5 JD
- Semi-major axis: 0.9967 AU
- Eccentricity: 0.1519
- Inclination: 8.81°
- Longitude of Ascending Node: 182.23°
- Argument of Periapsis: 68.88°
- Mean Anomaly: 85.83°
Physical Characteristics
- Diameter: ~0.031 km
- Magnitude: 25.92
Derived Characteristics
- Orbit Period: 363 days (0.99 years)
- Avg. Orbit Speed: 29.87 km/s
- Aphelion Distance: 1.15 AU
- Perihelion Distance: 0.85 AU
- Rotation Period: 0.32 hours
Map Comparison
Orbit Simulation
Sky Map
The position of 2017 SL16 is indicated by a ◯ pink circle. Note that the object may not be in your current field of view. Use the controls below to adjust position, location, and time.
Size Rendering
The below comparison is an artistic rendering that uses available data on the diameter of 2017 SL16 to create an approximate landscape rendering with New York City in the background. This approximation is built for full-resolution desktop browsers. Shape, color, and texture of asteroid are imagined.
