Let our curiosity serve as our fuel as we strive for the stars and beyond because we are all the explorers of the universe and the workings of our planet. Our club allow us to explore our knowledge of physics and space science through field trips, questions, and the construction of various objects to deepen our comprehension of the workings of the world and space.
Forwarded from Science News | Environment
Astronomers may have found tantalizing evidence that dark energy β the mysterious energy driving the accelerating expansion of our universe β could be connected with black holes.
Dark energy makes up roughly 70% of our universe, and is thought to have emerged in the aftermath of the Big Bang, 13.8 billion years ago, to drive the growth of the cosmos.
But exactly where the mysterious force came from remains unclear. In recent years, some astronomers proposed a radical theory that, rather than being diffusely spread throughout all space, dark energy could emerge from the hearts of gigantic black holes. Others, however, discounted the proposal as outlandish.
Now, a new study claims to have found the first hints of a connection between the two seemingly unrelated phenomena: a match between the increasing density of dark energy and the growing mass of black holes as the universe aged. The researchers published their findings Oct. 28 in the Journal of Cosmology and Astroparticle Physics.
"If you ask yourself the question, 'Where in the later universe do we see gravity as strong as it was at the beginning of the universe?' the answer is at the center of black holes," study co-author Gregory TarlΓ©, professor of physics at the University of Michigan, said in a statement. "It's possible that what happened during inflation runs in reverse, the matter of a massive star becomes dark energy again during gravitational collapse β like a little Big Bang played in reverse."
To search for clues that dark energy may be connected to black holes, the researchers used the Dark Energy Spectroscopic Instrument (DESI) mounted on the Nicholas U. Mayall 4-meter Telescope in Arizona, which pinpoints the monthly positions of millions of galaxies to study how the universe expanded up to the present day. This enables astronomers to infer the density of dark energy throughout the universe's life from the speed at which the cosmos stretches outward.
By comparing this proxy data for dark energy to black hole growth at different stages of the universe's life, the researchers made an intriguing observation.
"The two phenomena were consistent with each other β as new black holes were made in the deaths of massive stars, the amount of dark energy in the universe increased in the right way," co-author Duncan Farrah, an associate professor of physics at the University of Hawaii, said in the statement. "This makes it more plausible that black holes are the source of dark energy."
If the hypothesis is borne out, it could help to solve a growing conundrum in cosmology. For years, astronomers have found that the universe appears to be expanding at different speeds depending on where they look β a problem they call the Hubble tension. Some of the measurements confirm our best current understanding of the universe, while others threaten to break it.
Nonetheless, despite the interesting connection, the astronomers say that many more observations, by DESI and other experiments, are needed before any firm conclusions can be reached.
"Fundamentally, whether black holes are dark energy, coupled to the universe they inhabit, has ceased to be just a theoretical question," TarlΓ© said. "This is an experimental question now."
Dark energy makes up roughly 70% of our universe, and is thought to have emerged in the aftermath of the Big Bang, 13.8 billion years ago, to drive the growth of the cosmos.
But exactly where the mysterious force came from remains unclear. In recent years, some astronomers proposed a radical theory that, rather than being diffusely spread throughout all space, dark energy could emerge from the hearts of gigantic black holes. Others, however, discounted the proposal as outlandish.
Now, a new study claims to have found the first hints of a connection between the two seemingly unrelated phenomena: a match between the increasing density of dark energy and the growing mass of black holes as the universe aged. The researchers published their findings Oct. 28 in the Journal of Cosmology and Astroparticle Physics.
"If you ask yourself the question, 'Where in the later universe do we see gravity as strong as it was at the beginning of the universe?' the answer is at the center of black holes," study co-author Gregory TarlΓ©, professor of physics at the University of Michigan, said in a statement. "It's possible that what happened during inflation runs in reverse, the matter of a massive star becomes dark energy again during gravitational collapse β like a little Big Bang played in reverse."
To search for clues that dark energy may be connected to black holes, the researchers used the Dark Energy Spectroscopic Instrument (DESI) mounted on the Nicholas U. Mayall 4-meter Telescope in Arizona, which pinpoints the monthly positions of millions of galaxies to study how the universe expanded up to the present day. This enables astronomers to infer the density of dark energy throughout the universe's life from the speed at which the cosmos stretches outward.
By comparing this proxy data for dark energy to black hole growth at different stages of the universe's life, the researchers made an intriguing observation.
"The two phenomena were consistent with each other β as new black holes were made in the deaths of massive stars, the amount of dark energy in the universe increased in the right way," co-author Duncan Farrah, an associate professor of physics at the University of Hawaii, said in the statement. "This makes it more plausible that black holes are the source of dark energy."
If the hypothesis is borne out, it could help to solve a growing conundrum in cosmology. For years, astronomers have found that the universe appears to be expanding at different speeds depending on where they look β a problem they call the Hubble tension. Some of the measurements confirm our best current understanding of the universe, while others threaten to break it.
Nonetheless, despite the interesting connection, the astronomers say that many more observations, by DESI and other experiments, are needed before any firm conclusions can be reached.
"Fundamentally, whether black holes are dark energy, coupled to the universe they inhabit, has ceased to be just a theoretical question," TarlΓ© said. "This is an experimental question now."
Forwarded from NASA's Astronomy Picture of the Day
2024 November 2
Saturn at Night
Image Credit: NASA, JPL-Caltech, Space Science Institute, Mindaugas Macijauskas
Saturn is bright in Earth's night skies. Telescopic views of the outer gas giant planet and its beautiful rings often make it a star at star parties. But this stunning view of Saturn's rings and night side just isn't possible from telescopes in the vicinity of planet Earth. Peering out from the inner Solar System they can only bring Saturn's day side into view. In fact, this image of Saturn's slender sunlit crescent with night's shadow cast across its broad and complex ring system was captured by the Cassini spacecraft. A robot spacecraft from planet Earth, Cassini called Saturn orbit home for 13 years before it was directed to dive into the atmosphere of the gas giant on September 15, 2017. This magnificent mosaic is composed of frames recorded by Cassini's wide-angle camera only two days before its grand final plunge. Saturn's night will not be seen again until another spaceship from Earth calls.
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Saturn at Night
Image Credit: NASA, JPL-Caltech, Space Science Institute, Mindaugas Macijauskas
Saturn is bright in Earth's night skies. Telescopic views of the outer gas giant planet and its beautiful rings often make it a star at star parties. But this stunning view of Saturn's rings and night side just isn't possible from telescopes in the vicinity of planet Earth. Peering out from the inner Solar System they can only bring Saturn's day side into view. In fact, this image of Saturn's slender sunlit crescent with night's shadow cast across its broad and complex ring system was captured by the Cassini spacecraft. A robot spacecraft from planet Earth, Cassini called Saturn orbit home for 13 years before it was directed to dive into the atmosphere of the gas giant on September 15, 2017. This magnificent mosaic is composed of frames recorded by Cassini's wide-angle camera only two days before its grand final plunge. Saturn's night will not be seen again until another spaceship from Earth calls.
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Interesting find of October 31 2024
A team of researchers has developed a printing technique capable of forming a periodic nano/microstructure on the surface of a polydimethylsiloxane (PDMS) slab and easily transferring it onto the surface of a glass substrate. This technique enables us to create materials with useful functions -- including water-repellency and the ability to generate structural colors -- without expensive equipment and complex processes. In addition, the technique may be used to fabricate materials capable of realizing anti-fogging and/or generating structural colors on their surfaces -- functions potentially useful in the development of innovative gas sensors
A team of researchers has developed a printing technique capable of forming a periodic nano/microstructure on the surface of a polydimethylsiloxane (PDMS) slab and easily transferring it onto the surface of a glass substrate. This technique enables us to create materials with useful functions -- including water-repellency and the ability to generate structural colors -- without expensive equipment and complex processes. In addition, the technique may be used to fabricate materials capable of realizing anti-fogging and/or generating structural colors on their surfaces -- functions potentially useful in the development of innovative gas sensors
Forwarded from NASA's Astronomy Picture of the Day
2024 November 3
Jupiter Abyss
Credit & Copyright: Image Credit: NASA, Juno, SwRI, MSSS; Processing & License: Gerald EichstΓ€dt & Sean Doran
What's that black spot on Jupiter? No one is sure. During one pass of NASA's Juno over Jupiter, the robotic spacecraft imaged an unusually dark cloud feature informally dubbed the Abyss. Surrounding cloud patterns show the Abyss to be at the center of a vortex. Since dark features on Jupiter's atmosphere tend to run deeper than light features, the Abyss may really be the deep hole that it appears -- but without more evidence that remains conjecture. The Abyss is surrounded by a complex of meandering clouds and other swirling storm systems, some of which are topped by light colored, high-altitude clouds. The featured image was captured in 2019 while Juno passed only about 15,000 kilometers above Jupiter's cloud tops. The next close pass of Juno near Jupiter will be in about three weeks.
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Jupiter Abyss
Credit & Copyright: Image Credit: NASA, Juno, SwRI, MSSS; Processing & License: Gerald EichstΓ€dt & Sean Doran
What's that black spot on Jupiter? No one is sure. During one pass of NASA's Juno over Jupiter, the robotic spacecraft imaged an unusually dark cloud feature informally dubbed the Abyss. Surrounding cloud patterns show the Abyss to be at the center of a vortex. Since dark features on Jupiter's atmosphere tend to run deeper than light features, the Abyss may really be the deep hole that it appears -- but without more evidence that remains conjecture. The Abyss is surrounded by a complex of meandering clouds and other swirling storm systems, some of which are topped by light colored, high-altitude clouds. The featured image was captured in 2019 while Juno passed only about 15,000 kilometers above Jupiter's cloud tops. The next close pass of Juno near Jupiter will be in about three weeks.
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Forwarded from Ethiopian Space Science Society
π Launch Your Career with the ESSS Space Internship Program! π
Are you a university student or recent graduate passionate about space science? Join the ESSS 3-Month Space Internship Program and contribute to advancing space science and technology!
Application Deadline: Sunday, December 22, 2024 (midnight)
π Apply Now: https://forms.gle/8zL5ZgjJF6Kutt1k8
πLearn More about the Internship here
Don't miss this opportunity to gain hands-on experience and be part of Ethiopia's growing space science community! π
#ESSS #SIP2025 #Opportunity #Ethiopia
Are you a university student or recent graduate passionate about space science? Join the ESSS 3-Month Space Internship Program and contribute to advancing space science and technology!
Application Deadline: Sunday, December 22, 2024 (midnight)
π Apply Now: https://forms.gle/8zL5ZgjJF6Kutt1k8
πLearn More about the Internship here
Don't miss this opportunity to gain hands-on experience and be part of Ethiopia's growing space science community! π
#ESSS #SIP2025 #Opportunity #Ethiopia
Forwarded from Akrem
Physics club week two questions.docx
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