Purdue's plan to find Amelia Earhart's plane
Why it matters: The disappearance of the iconic Boilermaker and her plane, the Electra, on July 2, 1937, remains one of the aviation world's most captivating mysteries.
But this team says it may have cracked the code.
Driving the news: On the 88th anniversary of Earhart's disappearance, Purdue Research Foundation (PRF) and the Archaeological Legacy Institute (ALI) announced a joint effort to recover the Electra from Nikumaroro Island in the South Pacific.
The operation will confirm whether a visual anomaly seen in satellite imagery in the island's lagoon is actually the remains of the aircraft.
Nikumaroro is approximately halfway between Australia and Hawaii.
What they're saying:"What we have here is maybe the greatest opportunity ever to finally close the case," Richard Pettigrew, ALI's executive director, said in a statement. "With such a great amount of very strong evidence, we feel we have no choice but to move forward and hopefully return with proof."
Flashback: Purdue president Edward Elliott recruited Earhart to work at Purdue in 1935 after growing concerned that women enrolled at the university were not completing their studies.
Earhart lived in the then-new women's residence hall, served as a counselor and advised Purdue's aeronautical engineering department.
Earhart planned to give the Electra to Purdue for further scientific research after piloting it to set a record for the longest-distance flight, but she never returned.
Zoom in: The team is working on "a vast amount of circumstantial evidence" collected over the past 40 years that supports the idea that Earhart and her navigator, Fred Noonan, did not crash at sea as originally believed.
Instead, they think the pair landed and ultimately perished on the uninhabited island.
Among the evidence is a 2017 analysis of human bones discovered on the island in 1940 that determined Earhart's bone lengths were more similar to the discovered remains than 99% of individuals, supporting the conclusion that they belong to her.
What's next: The expedition is slated to embark from Majuro in the Marshall Islands on Nov. 5, spend five days on Nikumaroro inspecting what they believe are pieces of the plane, and return to port on Nov. 21.
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Yahoo
3 days ago
- Yahoo
Scientists watch a solar system being born for the first ever time
Scientists have watched a solar system being born for the first ever time. Using a powerful telescope, researchers saw the first pieces of material that will go onto form planets. A solar system has never been seen this early in its formation before. Researchers hope that the breakthrough discovery will allow for a new understanding of how such systems form – including our own. The findings are like 'a picture of the baby Solar System', said Merel van 't Hoff, a professor at Purdue University, USA, and a co-author on the new study. 'We're seeing a system that looks like what our Solar System looked like when it was just beginning to form.' The new system is being born around HOPS-315, a baby star located around 1300 light-years away. Researchers believe that it looks like our Sun would have done in its youth. Those baby stars often have 'protoplanetary discs' around them, made up of dust and gas that will eventually clump together and form the beginnings of planets. Researchers have seen massive newborn planets in those discs before, but they have now spotted those baby planets as they begin to form. The work is described in a new paper, 'Refractory solid condensation detected in an embedded protoplanetary disk', published in the journal Nature. More follows
Yahoo
4 days ago
- Yahoo
Astronomers capture birth of a new solar system around sun-like baby star
Astronomers have, for the first time, discovered the moment when planets started to form around a sun-like baby star, scientists reported Wednesday. The specks of planet-forming material are emerging around HOPS-315, a protostar or baby star located 1,300 light-years away from us. One light year is approximately 5.88 trillion miles. While astronomers have seen discs of gas and dust around protostars before, they've never before identified a new planetary system at such an early stage. Minerals in the system around HOPS-315 are just starting to form. "We're seeing a system that looks like what our Solar System looked like when it was just beginning to form," study co-author Merel van 't Hoff, a professor at Purdue University, said in a news release from the European Southern Observatory (ESO). The observatory paired up with NASA's Webb Space Telescope to identify the minerals forming the new solar system. Researchers turned to data from our own solar system to determine that these minerals show the start of a new system. In Earth's solar system, the first solid materials to form can now be found inside ancient meteorites. Those ancient meteorites contain a mineral called silicon monoxide, which only forms at extremely high temperatures, like those near a young star. Scientists were able to identify the formation of silicon monoxide around HOPS-315, which they said tells them they've caught the development of a solar system at an early stage. "This is the first time this early stage of planet-building has ever been observed outside our own Solar System," the Planetary Society wrote in a social media post about the discovery. The discovery marks "the birth of the seeds of the planets," study co-author Edwin Bergin, a professor at the University of Michigan, told CBS News. The silicate-mineral rich material around HOPS-315 will make planets after another million years or so. "So we are watching the beginnings of the construction of planets," Bergin said. With the discovery, Bergin said researchers now know what to look for to find other budding systems. ESO's Alma telescope network in Chile captured an image of the still-forming planetary system around HOPS-315. In orange, the image shows the distribution of carbon monoxide blowing away from HOPS-315. Blue shows a narrow jet of silicon monoxide, which is also beaming away from the baby star. Astronomers hope it can help them learn more about the dawn of our solar system. "This system is one of the best that we know to actually probe some of the processes that happened in our Solar System," van 't Hoff said in a news release. HOPS-315 is much younger than the Sun; it's about 100,000 years old, Bergin said. "So we get a glimpse of the system in its infancy," Bergin said in an email. "Given that the Sun is 4.6 Billion years old this is a baby star that is still gaining mass and getting bigger." Son of man who was violently detained by ICE reacts after release Mike Johnson breaks from Trump, calls on DOJ to release Epstein files Fighting elderly loneliness
CBS News
4 days ago
- CBS News
Astronomers capture birth of new solar system around a sun-like baby star
Astronomers have, for the first time, discovered the moment when planets started to form around a sun-like baby star, scientists reported Wednesday. The specks of planet-forming material are emerging around HOPS-315, a protostar or baby star located 1,300 light-years away from us. One light year is approximately 5.88 trillion miles. While astronomers have seen discs of gas and dust around protostars before, they've never before identified a new planetary system at such an early stage. Minerals in the system around HOPS-315 are just starting to form. "We're seeing a system that looks like what our Solar System looked like when it was just beginning to form," study co-author Merel van 't Hoff, a professor at Purdue University, said in a news release from the European Southern Observatory (ESO). The observatory paired up with NASA's Webb Space Telescope to identify the minerals forming the new solar system. Researchers turned to data from our own solar system to determine that these minerals show the start of a new system. In Earth's solar system, the first solid materials to form can now be found inside ancient meteorites. Those ancient meteorites contain a mineral called silicon monoxide, which only forms at extremely high temperatures, like those near a young star. Scientists were able to identify the formation of silicon monoxide around HOPS-315, which they said tells them they've caught the development of a solar system at an early stage. "This is the first time this early stage of planet-building has ever been observed outside our own Solar System," the Planetary Society wrote in a social media post about the discovery. The discovery marks "the birth of the seeds of the planets," study co-author Edwin Bergin, a professor at the University of Michigan, told CBS News. The silicate-mineral rich material around HOPS-315 will make planets after another million years or so. "So we are watching the beginnings of the construction of planets," Bergin said. With the discovery, Bergin said researchers now know what to look for to find other budding systems. ESO's Alma telescope network in Chile captured an image of the still-forming planetary system around HOPS-315. In orange, the image shows the distribution of carbon monoxide blowing away from HOPS-315. Blue shows a narrow jet of silicon monoxide, which is also beaming away from the baby star. Astronomers hope it can help them learn more about the dawn of our solar system. "This system is one of the best that we know to actually probe some of the processes that happened in our Solar System," van 't Hoff said in a news release. HOPS-315 is much younger than the Sun; it's about 100,000 years old, Bergin said. "So we get a glimpse of the system in its infancy," Bergin said in an email. "Given that the Sun is 4.6 Billion years old this is a baby star that is still gaining mass and getting bigger."
