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π₯°6π4π―4
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THIS IS UNUSUAL:
Donald Trump made 3,700+ stock trades in Q1 2026.
40 per day.
One every 6 minutes.
Up 100%+ on AMD, Intel, Bloom Energy, Marvell, Seagate, SanDisk, Iridium, Intuitive Machines, Penguin Solutions and Vishay.
Up 20%+ on nearly every other name in the book.
Funny how all of these companies have direct dealings with his administration: chips, defense, energy, AI infrastructure.
Greatest trader on Wall Street?
Or greatest information edge in Washington?
π³πΎπΎπΌπΏπ€π π πΈπ½πΆ
Donald Trump made 3,700+ stock trades in Q1 2026.
40 per day.
One every 6 minutes.
Up 100%+ on AMD, Intel, Bloom Energy, Marvell, Seagate, SanDisk, Iridium, Intuitive Machines, Penguin Solutions and Vishay.
Up 20%+ on nearly every other name in the book.
Funny how all of these companies have direct dealings with his administration: chips, defense, energy, AI infrastructure.
Greatest trader on Wall Street?
Or greatest information edge in Washington?
π³πΎπΎπΌπΏπ€π π πΈπ½πΆ
β‘1
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American woman is shocked to get a $1251 fine in Australia from an AI camera for having her phone on her lap face down while her hands were on the steering wheel.
She was shocked because in the US the job of the police is to catch dangerous criminals instead of revenue raising
π³πΎπΎπΌπΏπ€π π πΈπ½πΆ
She was shocked because in the US the job of the police is to catch dangerous criminals instead of revenue raising
π³πΎπΎπΌπΏπ€π π πΈπ½πΆ
π3π―1π1
Astronomers using the James Webb Space Telescope (JWST) have identified a mysterious class of objects known as βlittle red dotsβ (LRDs) in the early universe. These compact, bright red sources, located more than 12 billion light-years away, may represent one of the strangest phenomena yet observed: young supermassive black holes enveloped in dense cocoons of gas, sometimes referred to as βblack hole stars.β
First detected shortly after JWST began operations in 2022, these objects puzzled researchers. They appeared too bright and massive for typical galaxies at such great distances, yet they lacked the strong X-ray emissions usually associated with actively feeding black holes.
A recent breakthrough came from cross-matching JWST data with archival observations from NASAβs Chandra X-ray Observatory. Astronomers identified a rare βX-ray dotβ (officially designated 3DHST-AEGIS-12014), located about 11.8 billion light-years away. This object shares many traits with little red dots but leaks detectable X-rays through gaps in its surrounding gas envelope.
Researchers propose that little red dots are rapidly growing supermassive black holes shrouded in thick shells of dense, ionized gas. This cocoon absorbs and reprocesses most of the intense radiation, including X-rays, giving the objects a reddish, star-like appearance powered by the black holeβs accretion rather than nuclear fusion. As the black hole consumes material and grows, it gradually clears channels through the gas, allowing X-rays to escape in transitional objects like the X-ray dot.
If confirmed, this model helps explain a long-standing puzzle in cosmology: how supermassive black holes reached billions of solar masses when the universe was less than 10 percent of its current age. These hidden βblack hole starsβ may represent a critical, short-lived growth phase that allowed rapid accretion in the early cosmos.
The discovery highlights the power of combining multi-wavelength observations from JWST and Chandra. Future studies will aim to confirm whether most little red dots follow this evolutionary path from obscured black hole stars to more conventional quasars.
π³πΎπΎπΌπΏπ€π π πΈπ½πΆ
First detected shortly after JWST began operations in 2022, these objects puzzled researchers. They appeared too bright and massive for typical galaxies at such great distances, yet they lacked the strong X-ray emissions usually associated with actively feeding black holes.
A recent breakthrough came from cross-matching JWST data with archival observations from NASAβs Chandra X-ray Observatory. Astronomers identified a rare βX-ray dotβ (officially designated 3DHST-AEGIS-12014), located about 11.8 billion light-years away. This object shares many traits with little red dots but leaks detectable X-rays through gaps in its surrounding gas envelope.
Researchers propose that little red dots are rapidly growing supermassive black holes shrouded in thick shells of dense, ionized gas. This cocoon absorbs and reprocesses most of the intense radiation, including X-rays, giving the objects a reddish, star-like appearance powered by the black holeβs accretion rather than nuclear fusion. As the black hole consumes material and grows, it gradually clears channels through the gas, allowing X-rays to escape in transitional objects like the X-ray dot.
If confirmed, this model helps explain a long-standing puzzle in cosmology: how supermassive black holes reached billions of solar masses when the universe was less than 10 percent of its current age. These hidden βblack hole starsβ may represent a critical, short-lived growth phase that allowed rapid accretion in the early cosmos.
The discovery highlights the power of combining multi-wavelength observations from JWST and Chandra. Future studies will aim to confirm whether most little red dots follow this evolutionary path from obscured black hole stars to more conventional quasars.
π³πΎπΎπΌπΏπ€π π πΈπ½πΆ
π3β€βπ₯1π€―1
A physicist has proposed that dark matter, the invisible substance dominating the universeβs mass, could be evidence that our reality is fundamentally computational.
While the concept sounds like pure science fiction, it stems from a serious physics hypothesis centered on one of cosmologyβs greatest enigmas: the nature of information itself.
Melvin Vopson, a physicist at the University of Portsmouth, suggests that information possesses actual physical mass and may constitute a previously unknown βfifth state of matter,β joining solids, liquids, gases, and plasma.
His theory rests on a striking idea: information is not merely abstract data, it is physically linked to energy and matter. In previous research, Vopson introduced the mass-energy-information equivalence principle, which states that every bit of information (whether digital or physical) carries an incredibly small but real amount of mass.
To illustrate just how minuscule this is: erasing one terabyte of data would theoretically reduce an objectβs mass by roughly 2.5 Γ 10β»Β²β΅ kilograms, far too small to detect with current technology. Yet when scaled across the entire universe, the cumulative mass becomes significant.
Vopson argues that this βhidden massβ from information could help account for dark matter, the unseen gravitational glue that holds galaxies together. Although we canβt observe dark matter directly, its effects on cosmic structures are unmistakable.
He takes the idea even further: if information is deeply embedded in the fabric of matter, then the universe may function like a vast computational system. This perspective leads some physicists to seriously consider whether reality itself operates as a highly advanced simulation running on mathematical rules.
To test his hypothesis, Vopson has suggested an experiment based on matter-antimatter annihilation. If correct, it should release a tiny but detectable burst of extra energy as the information encoded within particles is erased.
The theory remains highly controversial, and most physicists are skeptical. Nevertheless, many researchers agree that experimentally determining whether information has measurable mass could profoundly impact our understanding of physics, cosmology, and the fundamental nature of reality.
π³πΎπΎπΌπΏπ€π π πΈπ½πΆ
While the concept sounds like pure science fiction, it stems from a serious physics hypothesis centered on one of cosmologyβs greatest enigmas: the nature of information itself.
Melvin Vopson, a physicist at the University of Portsmouth, suggests that information possesses actual physical mass and may constitute a previously unknown βfifth state of matter,β joining solids, liquids, gases, and plasma.
His theory rests on a striking idea: information is not merely abstract data, it is physically linked to energy and matter. In previous research, Vopson introduced the mass-energy-information equivalence principle, which states that every bit of information (whether digital or physical) carries an incredibly small but real amount of mass.
To illustrate just how minuscule this is: erasing one terabyte of data would theoretically reduce an objectβs mass by roughly 2.5 Γ 10β»Β²β΅ kilograms, far too small to detect with current technology. Yet when scaled across the entire universe, the cumulative mass becomes significant.
Vopson argues that this βhidden massβ from information could help account for dark matter, the unseen gravitational glue that holds galaxies together. Although we canβt observe dark matter directly, its effects on cosmic structures are unmistakable.
He takes the idea even further: if information is deeply embedded in the fabric of matter, then the universe may function like a vast computational system. This perspective leads some physicists to seriously consider whether reality itself operates as a highly advanced simulation running on mathematical rules.
To test his hypothesis, Vopson has suggested an experiment based on matter-antimatter annihilation. If correct, it should release a tiny but detectable burst of extra energy as the information encoded within particles is erased.
The theory remains highly controversial, and most physicists are skeptical. Nevertheless, many researchers agree that experimentally determining whether information has measurable mass could profoundly impact our understanding of physics, cosmology, and the fundamental nature of reality.
π³πΎπΎπΌπΏπ€π π πΈπ½πΆ
β€βπ₯2π2πΏ2π1
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American woman is shocked to get a $1251 fine in Australia from an AI camera for having her phone on her lap face down while her hands were on the steering wheel.
She was shocked because in the US the job of the police is to catch dangerous criminals instead of revenue raising
π³πΎπΎπΌπΏπ€π π πΈπ½πΆ
She was shocked because in the US the job of the police is to catch dangerous criminals instead of revenue raising
π³πΎπΎπΌπΏπ€π π πΈπ½πΆ
Meanwhile in the UK
Children as young as SEVEN YEARS OLD are taught that black people cannot be racist to white people and that they have a responsibility to be aware of their βwhite privilegeβ
STOP SENDING YOUR KIDS TO BE BRAINWASHED IN THESE SCHOOLS
π³πΎπΎπΌπΏπ€π π πΈπ½πΆ
Children as young as SEVEN YEARS OLD are taught that black people cannot be racist to white people and that they have a responsibility to be aware of their βwhite privilegeβ
STOP SENDING YOUR KIDS TO BE BRAINWASHED IN THESE SCHOOLS
π³πΎπΎπΌπΏπ€π π πΈπ½πΆ
π9π1
Reddit atheists discovering how much the church does for the community is one of my favorite things
π³πΎπΎπΌπΏπ€π π πΈπ½πΆ
π³πΎπΎπΌπΏπ€π π πΈπ½πΆ
πΏ4
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Nah unapologetically idc free Chud now ! Iβm so tired !
Chud is just one of the few voices of reason left in this clown world ! Starting to wonder if anything being said about him is true at all at this point !
π³πΎπΎπΌπΏπ€π π πΈπ½πΆ
Chud is just one of the few voices of reason left in this clown world ! Starting to wonder if anything being said about him is true at all at this point !
π³πΎπΎπΌπΏπ€π π πΈπ½πΆ
π―5
Boomers wholeheartedly believe that black teens just donβt ever commit crime unless George Soros pays them to. The unimpeachable character of the negro is a founding tenet of the boomer religion
π³πΎπΎπΌπΏπ€π π πΈπ½πΆ
π³πΎπΎπΌπΏπ€π π πΈπ½πΆ
π―8π1π1
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The bundle starts dumping and all you can do is just sit there and accept it
π³πΎπΎπΌπΏπ€π π πΈπ½πΆ
π³πΎπΎπΌπΏπ€π π πΈπ½πΆ
π4π₯°1
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Haitians actually eat dirt cookies, they called bonbon tè.
Women go and buy sacks of dirt, often on credit, and mix them with a bit of fat and salt
π³πΎπΎπΌπΏπ€π π πΈπ½πΆ
Women go and buy sacks of dirt, often on credit, and mix them with a bit of fat and salt
π³πΎπΎπΌπΏπ€π π πΈπ½πΆ
π6π―2π¨1