A recently discovered asteroid will make a relatively close approach to Earth this Monday, drawing the attention of astronomers and space agencies worldwide. Despite the short cosmic distance, experts emphasize that the object represents no danger to the planet and will safely continue its journey through space.
Astronomers are closely monitoring an asteroid known as 2026JH2, a rocky object expected to glide past Earth at an estimated distance of about 91,593 kilometers, roughly 56,900 miles. According to calculations from the European Space Agency, its trajectory will bring it to nearly one quarter of the usual gap between Earth and the moon, placing it among this year’s closest recorded asteroid flybys. Even so, researchers point out that it presents no risk of impact or atmospheric entry.
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.
According to NASA’s Jet Propulsion Laboratory, the asteroid is expected to make its closest pass shortly before 6 p.m. Eastern Time, and although this moment may seem alarmingly close from a human perspective, astronomers note that events of this kind happen rather frequently across the vast stretches of the solar system.
Why specialists conclude there’s no real cause for concern
Planetary scientists have assured the public that the asteroid poses no danger to Earth, noting it will pass by safely. Richard Binzel, a professor at the Massachusetts Institute of Technology and the creator of the Torino Scale for categorizing asteroid impact hazards, emphasized that objects of comparable size routinely travel between Earth and the moon without generating any problems.
Binzel observes that car-sized or small-bus-sized asteroids routinely pass through Earth’s cosmic neighborhood, and explains that what sets the present apart is that improved detection systems now enable astronomers to spot many of these bodies that once would have gone unnoticed.
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 originates from the main asteroid belt located between Mars and Jupiter. Researchers explain that collisions among rocks within the belt, combined with the gravitational influence of Jupiter, can occasionally redirect fragments toward the inner solar system. This process has been understood for decades and is responsible for many near-Earth asteroids that astronomers track 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
Despite direct observations of 2026JH2, astronomers still cannot determine its precise dimensions. Scientists estimate that the object measures somewhere between 15 and 30 meters in diameter, roughly equivalent to the size of one or two school buses. However, that estimate remains uncertain because telescopes observing in visible light only capture 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 is not a reliable measure of its size, as a large yet low‑albedo object may appear faint, whereas a smaller, highly reflective one can seem much more luminous.
Astronomers can gauge an object’s dimensions with greater accuracy when they gather infrared observations, because this type of data records heat signatures that align closely with the object’s true scale. However, carrying out infrared measurements from Earth is far more difficult, which means these readings are typically missing during the early identification of 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
Although scientists are confident that 2026JH2 poses no current threat, experts acknowledge that predicting the long-term movement of asteroids remains a complex challenge. Orbital paths can gradually change over time due to gravitational interactions with planets and other celestial bodies.
Michel noted that while long-term paths can never be forecast with perfect accuracy, current assessments show that no identified asteroid is expected to pose a significant collision risk in the next century, and planetary defense teams continually monitor thousands of near-Earth objects to detect any possible changes in their trajectories.
The close flyby occurs at a time when planetary radar assets are far more limited than in past years. Jean-Luc Margot, a professor of planetary sciences at the University of California, Los Angeles, explained that the 2020 collapse of the Arecibo Observatory drastically reduced the scientific community’s radar observation capacity, and NASA’s Goldstone radar facility is also currently undergoing major 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 noted that astronomers have detected only a limited number of near-Earth asteroids comparable in size to 2026JH2. Since many of these bodies are quite dim and compact, they typically come to light just days before their closest flybys, becoming visible only when their brightness finally reaches the threshold of survey telescopes.
This limitation has encouraged space agencies and scientific organizations to invest more heavily in asteroid discovery and tracking programs. New observatories and next-generation sky surveys are expected to improve detection rates significantly over the coming years, allowing researchers to build a more complete inventory of nearby objects.
A remarkable celestial spectacle is expected to unfold with the approach of Apophis
As 2026JH2 gains notice for its near approach, astronomers are turning their focus to an even more extraordinary event set for 2029, when a much larger asteroid called Apophis is projected to sweep past Earth at an even closer distance on April 13 of that year.
Scientists estimate that Apophis will travel within approximately 32,000 kilometers of Earth, a distance closer than some satellites orbiting the planet. Despite the dramatic proximity, astronomers say there is no cause for alarm and instead describe the event as a unique scientific opportunity.
The anticipated Apophis flyby is positioned to become one of the most closely monitored asteroid encounters of modern times, and unlike 2026JH2, which will remain out of sight to the naked eye, Apophis is expected to be visible without telescopes from several regions across Europe, Africa, and the Middle East.
Events like these offer researchers valuable opportunities to study asteroid composition, movement, and structure while refining planetary defense strategies. Each close approach improves scientific understanding of how these objects behave and how humanity could respond if a future asteroid ever posed a genuine threat.
For now, astronomers note that the arrival of 2026JH2 mainly highlights how constantly Earth’s cosmic surroundings shift. Small asteroids travel through the solar system on a regular basis, and with advancing technology, scientists are growing ever more adept at detecting them well before they make close approaches.
A livestream of the asteroid’s approach is expected to be broadcast by the Virtual Telescope Project from observatories in Italy, allowing astronomy enthusiasts around the world to follow the event in real time. Although the asteroid itself will remain far too dim for most people to see directly, the flyby continues to capture public curiosity about the many objects that silently travel through Earth’s neighborhood in space.
