Scheduled for launch in August, NASA’s upcoming JPL mission will mark a milestone in space exploration: The Psyche mission will be the first time the space agency has sent a probe into a world made mostly of metal, not rock and ice.
The mission’s target “mineral-rich asteroid, Psyche, has attracted scientists’ interest. They hope that by sending a spacecraft to get up close and personal with the asteroid, they can gather new information about the early days of the planet’s formation.
Here’s everything you need to know about the Psyche mission from NASA’s Jet Propulsion Laboratory, Caltech, and Arizona State University.
What is self?
Scientists believe that Earth and other terrestrial planets have solid metal cores in magma centers beneath their surfaces.
But because the mineral core lies deep beneath the mantle and crust of these planets, it is difficult to measure and study them directly.
Enter Psyche, an asteroid orbiting the solar system between Mars and Jupiter, which may actually have been the open core of an early planet.
Psyche is about 140 miles or 226 kilometers wide.
It was made of nickel and iron, along with some stones, according to NASA JPL mission websitethat separates it from the rocky and icy world, it is usually the target of NASA missions.
Why did scientists send a spacecraft to the asteroid Psyche?
By sending an investigation to Psyche, scientists hope to gather more information about how planets formed, as bits of rock, metal, and other debris swirled around the early universe before merging into the non-gaseous planets we can see today. this.
It is also the first metal object in space that NASA is trying to study, made interesting opportunity “To explore a new kind of world.”
When the Psyche probe reaches the asteroid, it will slowly orbit near Psyche’s surface, allowing the probe to collect data that scientists can study. This data is categorized into four different categories, which the probe will collect as it moves around Psyche at four different distances, called staging orbits.
The staging orbit allows NASA to observe and collect data on various aspects of asteroids, According to ASU. Information will range from the asteroid’s topography to its gravitational properties to the way various elements are distributed throughout the body.