A newly identified asteroid is set to pass relatively near Earth this Monday, drawing interest from astronomers and space agencies around the globe. Although the cosmic gap is small, specialists highlight that the object poses no threat to the planet and will move along its course safely through space.
Astronomers are closely monitoring an asteroid identified as 2026JH2, a rocky object that will pass near Earth at a distance of approximately 91,593 kilometers, or about 56,900 miles. According to calculations from the European Space Agency, the object will travel at roughly one quarter of the average distance between Earth and the moon, making it one of the closest asteroid flybys recorded this year. Even so, scientists insist there is no risk of collision or atmospheric impact.
The asteroid was first detected on May 10 by researchers working with the Mount Lemmon Survey in Tucson, Arizona, one of several programs dedicated to identifying near-Earth objects. After its discovery, the object received the official designation 2026JH2 and was classified as part of the Apollo group of asteroids, a category known for following orbital paths that intersect Earth’s orbit around the sun.
NASA’s Jet Propulsion Laboratory estimates that the asteroid will make its closest pass shortly before 6 p.m. Eastern Time. While that distance may appear alarmingly close from a human perspective, astronomers note that such flybys are relatively common within the broader scale of the solar system.
Why experts believe there is nothing to worry about
Planetary scientists have reassured the public that the asteroid presents no threat to Earth, pointing out that it will make a safe flyby. Richard Binzel, a professor at the Massachusetts Institute of Technology and the creator of the Torino Scale used to classify asteroid impact risks, noted that objects of similar size frequently move between Earth and the moon without causing any issues.
Binzel notes that asteroids roughly the size of a car or small bus regularly move through Earth’s celestial vicinity, and what distinguishes the situation today is that enhanced detection technologies now let astronomers identify many of these objects that would previously have escaped notice.
At its closest point, 2026JH2 will still remain significantly farther away than the altitude used by many geosynchronous satellites that support telecommunications, weather forecasting, and broadcasting systems. Scientists stress that the object’s trajectory has been thoroughly analyzed and does not intersect with Earth.
The asteroid is believed to come from the primary asteroid belt situated between Mars and Jupiter, where experts note that impacts among rocky bodies, along with Jupiter’s gravitational pull, can sometimes send debris drifting into the inner solar system, a mechanism understood for many years and credited with producing numerous near-Earth asteroids monitored by astronomers today.
While the flyby is harmless, the event highlights the crucial role of continuous monitoring in detecting potentially dangerous objects long before they could present any real risk.
The challenge of determining an asteroid’s exact size
Although 2026JH2 has been observed directly, astronomers still cannot determine its precise dimensions, with current scientific estimates suggesting a diameter between 15 and 30 meters—roughly the length of one or two school buses—yet this figure remains uncertain because visible‑light telescopes capture only how bright the object appears.
Patrick Michel, an astrophysicist and research director at France’s National Centre for Scientific Research, explained that an asteroid’s brightness does not directly reveal its size. A darker object may appear faint even if it is relatively large, while a smaller but highly reflective asteroid could seem brighter.
To accurately calculate dimensions, astronomers ideally require infrared observations, which allow them to measure heat emissions more directly linked to an object’s physical size. However, infrared observations are more difficult to conduct from Earth and are not typically part of the initial discovery process for near-Earth objects.
Scientists liken the smallest projected size of 2026JH2 to the meteor that detonated over Chelyabinsk, Russia, in 2013, an incident that sent a shockwave across the region, breaking windows and injuring more than 1,000 people. At the upper limit of current estimates, the asteroid may mirror the object tied to the 1908 Tunguska event in Siberia, which leveled extensive stretches of forest.
Researchers note, however, that these comparisons refer solely to scale rather than risk. In contrast to those past events, 2026JH2 is not expected to enter Earth’s atmosphere. Its trajectory ensures a secure distance from the planet, removing any chance of an airburst or ground collision.
Future asteroid tracking remains essential
Scientists remain confident that 2026JH2 currently poses no danger, yet experts admit that forecasting an asteroid’s long-term trajectory is inherently difficult, as orbital routes can shift over the years through gravitational pulls from planets and other cosmic objects.
Michel observed that although long-term trajectories can never be predicted with absolute certainty, current analyses indicate that no known asteroid poses a meaningful impact threat within the next hundred years. Planetary defense teams persistently track thousands of near-Earth objects to identify any potential shifts in their orbits.
The close flyby comes at a moment when planetary radar resources are far more constrained than in earlier years. Jean-Luc Margot, a professor of planetary sciences at the University of California, Los Angeles, noted that the 2020 collapse of the Arecibo Observatory sharply curtailed the scientific community’s radar observation capabilities. Moreover, NASA’s Goldstone radar facility is presently undergoing extensive repairs.
Without radar observations, astronomers encounter increased difficulty when determining the precise form, spin, and path of nearby asteroids, and while optical telescopes offer useful insights, radar systems let scientists construct much more accurate models of an object’s motion and physical characteristics.
Margot explained that astronomers have identified only a small set of near-Earth asteroids similar in size to 2026JH2, and because many of these objects remain faint and compact, they are often spotted just days before their closest approaches, becoming detectable only when their brightness finally meets survey telescope limits.
Space agencies and scientific organizations have been driven by this constraint to increase their investment in asteroid detection and monitoring initiatives, and new observatories along with advanced sky surveys are anticipated to boost discovery rates substantially in the coming years, enabling researchers to compile a more comprehensive catalog of nearby objects.
Apophis expected to provide a historic sky event
While 2026JH2 is drawing attention because of its proximity, astronomers are already preparing for a much more remarkable event scheduled for 2029. An asteroid known as Apophis, considerably larger than 2026JH2, is expected to pass even closer to Earth on April 13 of that year.
Scientists predict that Apophis will sweep past Earth at about 32,000 kilometers, bringing it nearer than certain orbiting satellites, and while this flyby is strikingly close, astronomers emphasize that it poses no danger and view it instead as a rare chance for scientific study.
The flyby of Apophis is expected to become one of the most closely observed asteroid encounters in modern history. Unlike 2026JH2, which will remain invisible to the naked eye, Apophis should be visible from parts of Europe, Africa, and the Middle East without the aid of telescopes.
Events like these provide researchers with vital opportunities to study an asteroid’s makeup, trajectory, and internal characteristics, helping to push planetary defense efforts forward, and each close approach broadens scientific understanding of how such objects behave and how humanity could respond if one ever posed a genuine threat.
For now, astronomers explain that the arrival of 2026JH2 chiefly underscores the constant shifts in Earth’s cosmic surroundings, where small asteroids routinely move through the solar system, and advancing technology enables scientists to spot them well before any close encounter occurs.
A live broadcast of the asteroid’s arrival is expected to be shown by the Virtual Telescope Project via its observatories in Italy, giving astronomy fans worldwide the chance to watch the moment as it unfolds in real time. Even though the asteroid will be far too faint for most viewers to spot on their own, the close pass continues to spark public fascination with the countless objects that quietly move through the region of space surrounding Earth.
