Asteroid alert! NASA tracks two aeroplane-sized asteroids passing Earth today; know if they pose any risk

Published 9 June 2026 · science

NASA tracks “aeroplane-sized asteroids”: When and what it means PC: NASA JPL Why astronomers still track objects that are “nowhere near” Earth Science behind tracking

NASA tracks “aeroplane-sized asteroids”: When and what it means PC: NASA JPL Why astronomers still track objects that are “nowhere near” Earth Science behind tracking asteroids and why this flyby still matters Astronomers don’t treat every “close approach” headline the same way the public does. On June 9, two near-Earth objects, 2026 LD and 2026 KM3, are being tracked as they pass Earth at distances measured in millions of kilometres. On paper, they’re described as “aeroplane-sized,” a comparison that tends to amplify concern. But in orbital mechanics terms, these are routine flybys that fall well within what NASA and other space agencies classify as safe, non-threatening encounters. Still, the tracking itself is not ceremonial. Each pass feeds into global planetary defence systems that constantly refine how we predict asteroid trajectories years or even decades ahead.What matters here isn’t just how big these rocks are, but how precisely we know where they’re going.The aeroplane-sized asteroids approaching Earth on June 9 refers to two objects that are large enough to be noticeable if they entered the atmosphere, but only in a hypothetical sense.Asteroid 2026 LD is estimated at 52 meters (170 feet) across.

That places it in a size range comparable to a commercial jetliner, like a Boeing 737 fuselage length.Its flyby distance is roughly 1.14 million kilometres, or about three times the distance between Earth and the Moon.The second object, 2026 KM3, is smaller at around 34 meters (110 feet) and will pass even farther away at approximately 2.35 million kilometres.In planetary defence terms, distance scales matter just as much as size. A 50-meter asteroid passing at lunar distance or beyond is not considered a hazard under current NASA Near-Earth Object risk frameworks used by systems like JPL’s Sentry monitoring platform.At first glance, tracking something over a million kilometres away might feel unnecessary. But asteroid monitoring is less about today’s pass and more about trajectory refinement over time. Systems like NASA’s Center for Near-Earth Object Studies continuously update orbital models using optical telescopes and radar data when available.

Each observation reduces uncertainty in an asteroid’s predicted path. That uncertainty is what matters most in long-term risk forecasting. Even small forces like the Yarkovsky effect, where uneven heating causes a slight thrust over time, can gradually shift an asteroid’s orbit. It is subtle, but over the decades, it can turn a harmless object into one that warrants closer attention.A common misconception is that “no impact risk today” means “no need to track.” In reality, most planetary defence work is about mapping probabilities years ahead, not reacting to immediate threats.Objects in the 30-to-60-meter range are scientifically interesting because they sit near the lower boundary of what could cause meaningful regional damage if an impact ever occurred. In the case of aeroplane-sized asteroids approaching Earth on June 9, both objects are not only well-characterised but also have trajectories that place them millions of kilometres from Earth, with no calculated impact scenario.