Key Facts

Overview

Schulz is a mid-sized asteroid orbiting between Mars and Jupiter in the main portion of the asteroid belt. NASA JPL has not classified Schulz as potentially hazardous because its orbit does not bring it close to Earth.

Schulz orbits the sun every 1,540 days (4.22 years), coming as close as 2.27 AU and reaching as far as 2.95 AU from the sun. Schulz is about 6.5 kilometers in diameter, making it larger than 99% of asteroids, comparable in size to the San Francisco Bay.

The rotation of Schulz has been observed. It completes a rotation on its axis every 13.39 hours.

No Close Approaches

Schulz's orbit is 1.29 AU from Earth's orbit at its closest point. This means that there is an extremely wide berth between this asteroid and Earth at all times.

Orbital simulations conducted by NASA JPL's CNEOS do not show any close approaches to Earth.

Images and Observations

Schulz's orbit is determined by observations dating back to Feb. 12, 1981. It was last officially observed on June 21, 2023. The IAU Minor Planet Center records 2,990 observations used to determine its orbit.

Accessibility and Exploration

This asteroid is not considered a viable target for human exploration by the NHATS study.

Similar Objects

These objects have orbits that share similar characteristics to the orbit of Schulz:

References

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Orbital Elements

  • Epoch: 2460200.5 JD
  • Semi-major axis: 2.614 AU
  • Eccentricity: 0.1303
  • Inclination: 13.08°
  • Longitude of Ascending Node: 179.9°
  • Argument of Periapsis: 330.79°
  • Mean Anomaly: 40.75°

Physical Characteristics

  • Diameter: 6.53600 km
  • Magnitude: 13.49
  • Albedo: 0.204

Derived Characteristics

  • Orbit Period: 1,540 days (4.22 years)
  • Avg. Orbit Speed: 18.47 km/s
  • Aphelion Distance: 2.95 AU
  • Perihelion Distance: 2.27 AU
  • Rotation Period: 13.39 hours

Map Comparison

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Orbit Simulation

Sky Map

The position of Schulz 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 above comparison is an artistic rendering that uses available data on the diameter of Schulz to create an approximate landscape rendering with Mount Everest in the background. This approximation is built for full-resolution desktop browsers. Shape, color, and texture of asteroid are imagined.