Asteroid mitigation has been a topic of conversation among scientists and policy-makers for many years now. The potential consequences of a large asteroid hitting Earth have driven the search for ways to deflect or remove them from our orbit. On September 15, 2019, NASA’s new NEOWISE mission will launch a spacecraft called Wide-field Infrared Survey Explorer-C/NEOWISE (WISE-C) that will map the entire Asteroid belt.
What is NASA’s Asteroid Redirect Mission?
NASA’s Asteroid Redirect Mission (ARM) is an ambitious space exploration project that aims to test technology that could divert a potentially dangerous asteroid to Earth. The mission, which is set to launch in 2020, will use a spacecraft called the Double Asteroid Redirection Test (DART). If successful, this could be the first step in preventing an asteroid from hitting Earth.
How Does the Asteroid Redirect Mission Work?
NASA is about to launch a spacecraft to test technology that could divert a potentially dangerous asteroid to Earth. The Asteroid Redirect Mission (ARM) is scheduled for launch on March 3, 2019, from NASA’s Kennedy Space Center in Florida.
The ARM spacecraft will travel to an experimental orbit around the sun using the sun’s gravitational force. Once in orbit, the spacecraft will use a robotic arm to capture an asteroid and bring it into a close proximity with the ARM spacecraft. The asteroid will be held in place by the arm, allowing the spacecraft to study it closely.
Once the asteroid is within reach, the astronauts aboard the ARM will use a small rocket engine to push it off of the spacecraft and send it on a new path towards Earth. This new path will take it past our planet’s moon, preventing it from hitting Earth.
If all goes according to plan, this technology could be used to redirect an even more dangerous asteroid before it hits Earth. This would save countless lives and protect humanity from a devastating impact.
What are the Critics of the Asteroid Redirect Mission?
The asteroid redirect mission, also known as the Asteroid Redirect Mission-Directed Impact Impactor or ARM, has been controversial since it was first proposed in 2013. Opponents of the mission argue that it is too expensive and could do more harm than good. Critics of the mission also contend that NASA does not have the technical ability to redirect an asteroid, and that any potential damage done to Earth by a redirected asteroid would be much greater than any benefits accrued from the mission.
What are the Benefits of the Asteroid Redirect Mission?
The asteroid redirect mission, or ARM, is a proposed NASA mission to test technology that could divert a potentially dangerous asteroid to Earth. If successful, the ARM would be the first step in using human ingenuity to avert an imminent global threat, and it has the potential to improve our understanding of how asteroids work and how we can protect ourselves from them.
ARM will use a robotic spacecraft to intercept and study an asteroid in close proximity to Earth. If the asteroid is found to be hazardous, ARM will use the spacecraft’s engines to maneuver it into a safer orbit around the sun. This demonstration of human ingenuity could help us avert an impending global catastrophe – and it’s just one example of how NASA is helping us explore and learn in new and innovative ways.
When Will the Asteroid Redirect Mission Take Place?
NASA is about to launch a spacecraft to test technology that could divert a potentially dangerous asteroid to Earth. If the test is successful, it could one day be used as a way to protect our planet from an asteroid strike.
NASA is about to launch a spacecraft called “Asteroid Redirect Mission” that will test technology that could divert a potentially dangerous asteroid to Earth. If successful, this mission could help us avoid a global catastrophe like the one we experienced in 2013, when an asteroid headed for Earth exploded over Russia, causing widespread damage and death. If you’re interested in learning more about this exciting project, be sure to check out our article on NASA’s Asteroid Redirect Mission!