Fast-Moving Asteroid to Make Close Approach Between Earth and Moon at 17,500mph

This weekend, an asteroid with a maximum size of 300 feet (90 meters) will fly by Earth and the moon at a speed of 17,500 mph. Those who have binoculars or small telescopes will be able to see the event, which is unusual for such a big space rock. A selection of top-notch binoculars fit for this use is available at TS2 Space (https://ts2.space/en/?s=binoculars). These binoculars come in a wide variety, allowing everyone to select one that meets their requirements.

Asteroid 2023 DZ2 will pass Earth at a distance of around 100,000 miles (168,000 kilometers), or less than half the distance between the moon and Earth. Astronomers will be able to view the asteroid up close because of its close proximity. According to NASA, such encounters are common. However, an asteroid of this size passing so near to Earth happens around once every ten years.

The asteroid, which was just detected a month ago, won’t endanger Earth. The possibility to rehearse planetary defense strategies for any future harmful asteroids is seen as an opportunity by scientists. This is despite the close approach. NASA has stated that the International Asteroid Warning Network will enhance its planetary security strategies in response to the asteroid’s close approach. Scientists have ruled out the possibility of an Earth collision even though the asteroid is scheduled to return in 2026.

The asteroid’s approach gives a possibility for observations, according to Richard Moissl, head of planetary defense at the European Space Agency. Richard adds that there is no risk that it will strike Earth. The Virtual Telescope Project is going to broadcast the near approach live online.

After passing Earth, the asteroid will return to the solar system due to its tremendous speed. The incident over the weekend is a timely reminder of the value of ongoing study and observation of near-Earth objects. It emphasizes the requirement for creating safeguards to defend the world from any prospective asteroid strikes.