What telescope do I need to see Hebe?

At magnitude 7.5, Hebe is easy in 7×50 or 10×50 binoculars.

Hebe — Asteroid in Taurus

Magnitude 7.5^m Asteroid Taurus Visible

Credit: SPHERE instrument on VLT (by ESO). License: Public domain. (Wikimedia Commons)

About Hebe

Description

Hebe is an S-type asteroid with a diameter of 195 km, orbiting at 2.43 AU in the asteroid belt. It is one of the most massive S-type asteroids and is thought to be the primary source of H chondrite meteorites — the most common type of meteorite found on Earth, making up about 40% of all stony meteorite falls. Hebe's surface is composed of a mixture of silicate rock and nickel-iron metal with an albedo of 0.27, giving it a moderately bright appearance. Its high bulk density suggests an extremely solid, compact body with little internal porosity. Hebe contains roughly 0.5% of the total mass of the asteroid belt.

Observing Tips

At opposition, Hebe reaches about magnitude 7.5, making it visible in binoculars under good conditions and an easy target for small telescopes. Its brightness typically ranges from magnitude 8 to 10. Hebe's position in the inner-to-middle asteroid belt means it moves at a moderate pace against the background stars. Best viewing months are typically July through September. Use an ephemeris to plot its position and confirm identification through its nightly motion. Like all asteroids, it appears as a star-like point even in large amateur telescopes.

History

Hebe was discovered on July 1, 1847 by German amateur astronomer Karl Ludwig Hencke, who had spent 15 years searching for new asteroids after the long gap following the discovery of Vesta in 1807. It was the sixth asteroid discovered and was named after Hebe, the Greek goddess of youth and cupbearer of the gods on Mount Olympus. Hencke's persistence in asteroid hunting — after 15 years with no new discoveries by anyone — earned him a pension from the King of Prussia. No spacecraft has visited Hebe.

Fun Facts

If Hebe is indeed the parent body of H chondrites, then pieces of this specific asteroid have been falling on Earth for millions of years — you may have seen one without knowing it. H chondrites are so common that roughly one in every six meteorites that lands on Earth may have originated from Hebe or its collisional fragments. Hebe's discoverer Karl Hencke also found the asteroid Astrea, ending a 38-year drought in asteroid discoveries.

Properties

Magnitude 7.5

Description

Type: Asteroid

Distance: 2.430 AU

Orbital Period: 1379.8 days

Diameter: 195 km

Features: impact craters

Possible parent body of H chondrite meteorites; S-type asteroid; Contains around 0.5% of the mass of the asteroid belt; High bulk density suggests an extremely solid body.

Position & Identifiers

RA 05h 39m 53.8s

Dec +15° 17' 00.2"

Constellation Taurus

Catalog Hebe

Wikipedia

Physical Properties

Diameter 195 km

Mass 1.24e19 kg

Albedo 0.27 (27% reflected)

Rotation 7.3 hours

Surface impact craters

Angular Size 0.1″ (current)

Orbital Properties

Semi-major Axis 2.4259 AU (362.9 million km)

Eccentricity 0.2023

Inclination 14.74°

Orbital Period 3.78 years

Distance 3.153 AU (26.2 light-min)

Elongation 8.1° Near Sun

Brightness Forecast (next 12 months)

Apparent magnitude as Earth–asteroid distance changes through the year. The peak marks the brightest moment in the window — usually around opposition, when the asteroid is closest and fully illuminated.

Computed from JPL orbital elements via m = H + 5·log₁₀(r·Δ). Phase-function correction is omitted, so curves trace distance variation only — accurate within a few tenths for main-belt asteroids; coarse for fast-moving NEOs near Earth.

Observing Tips

Best Months July , August , September

Visibility Telescope

Where to Look Asteroid belt, varies by constellation at opposition

Notes Possible parent body of H chondrite meteorites; S-type asteroid; Contains around 0.5% of the mass of the asteroid belt; High bulk density suggests an extremely solid body.