What Is Space Debris? Orbital Junk Explained

Q: How much space debris is there?

As of 2026, approximately 36,500 objects larger than 10 cm are tracked by ground-based sensors. Statistical models estimate roughly one million objects between 1–10 cm and over 130 million pieces larger than 1 mm. The total mass of debris in orbit exceeds 11,000 tonnes.

Q: How fast does space debris travel?

In low Earth orbit, debris travels at approximately 7.5 km/s (27,000 km/h). However, relative collision speeds between two objects can exceed 15 km/s (54,000 km/h) if they meet head-on — faster than a bullet by an order of magnitude.

Q: Can space debris hit the ISS?

Yes. The ISS regularly performs collision avoidance manoeuvres — several times per year — when tracked debris is predicted to pass dangerously close. The station's hull includes Whipple shields designed to withstand impacts from particles up to about 1 cm, but anything larger could be catastrophic.

📘 Definition

Space debris (also called orbital debris or space junk) encompasses all artificial objects in Earth orbit that no longer serve a useful function. This includes derelict spacecraft, spent upper stages, mission-related debris (lens caps, payload adapters), and fragments from collisions and explosions. Debris travels at orbital velocities of 7–8 km/s in LEO, meaning even a 1 cm fragment carries the kinetic energy of a hand grenade. The growing debris population threatens active satellites, crewed spacecraft like the ISS, and the long-term usability of key orbital regimes — a scenario known as the Kessler syndrome.

36,500+

Tracked Objects (>10 cm)

1,000,000

Estimated 1–10 cm

130,000,000

Estimated >1 mm

Up to 28,000 km/h

Orbital Speed (LEO)

Understanding Space Debris

Where Does Debris Come From?

The majority of tracked debris originates from just a handful of catastrophic events. The 2007 Chinese anti-satellite test (Fengyun-1C) created over 3,500 trackable fragments. The 2009 Cosmos–Iridium collision — the first accidental hypervelocity collision between two intact satellites — added roughly 2,300 more. The 2021 Russian ASAT test (Kosmos-1408) generated over 1,500 fragments directly threatening the ISS crew. Additional sources include upper stages that were not passivated (drained of residual fuel), shedding thermal blankets, and even tools lost during EVAs.

Why Size Matters

Size	Estimated Count	Trackable?	Impact Effect
> 10 cm	36,500	Yes (radar/optical)	Catastrophic — destroys satellite
1–10 cm	1,000,000	Partially (Space Fence)	Catastrophic to mission-ending
1 mm – 1 cm	130,000,000	No	Can penetrate shields, damage subsystems
< 1 mm	Trillions	No	Surface erosion, sensor degradation

Mitigation and Removal

Debris mitigation follows the 25-year rule (increasingly being replaced by a 5-year target) and passivation requirements. For the existing population, active debris removal (ADR) missions — using robotic arms, nets, harpoons, or magnetic capture — are under development by companies like Astroscale and ClearSpace. The first demonstrator missions are already in orbit, targeting specific defunct objects for controlled deorbit.

Frequently Asked Questions

How much space debris is there? ▼

As of 2026, approximately 36,500 objects larger than 10 cm are tracked by ground-based sensors. Statistical models estimate roughly one million objects between 1–10 cm and over 130 million pieces larger than 1 mm. The total mass of debris in orbit exceeds 11,000 tonnes.

How fast does space debris travel? ▼

In low Earth orbit, debris travels at approximately 7.5 km/s (27,000 km/h). However, relative collision speeds between two objects can exceed 15 km/s (54,000 km/h) if they meet head-on — faster than a bullet by an order of magnitude.

Can space debris hit the ISS? ▼

Yes. The ISS regularly performs collision avoidance manoeuvres — several times per year — when tracked debris is predicted to pass dangerously close. The station's hull includes Whipple shields designed to withstand impacts from particles up to about 1 cm, but anything larger could be catastrophic.