Anonymous
(ID: hAczrNut)
8/11/2025, 12:42:28 AM
No.512727928
>>512728026
>>512728300
>>512728612
>>512728681
>>512728922
>>512728998
>>512729212
>>512729432
>>512729515
>>512731879
8/11/2025, 12:42:28 AM
No.512727928
>>512728026
>>512728300
>>512728612
>>512728681
>>512728922
>>512728998
>>512729212
>>512729432
>>512729515
>>512731879
operation paperclip
man claims a paperclip sized spacecraft could be sent from Earth to the nearest black hole at light speed
size is they, we cant make an object bigger than a paperclip to travel through a wormhole
https://www.sciencedaily.com/releases/2025/08/250810093236.htm
his name is Bambi
prof. Bambi outlines the blueprint for turning this interstellar voyage to a black hole into a reality... "We don't have the technology now," he said "But in 20 or 30 years, we might."
Previous knowledge on how stars evolve suggests that there could be
>a black hole lurking just 20 to 25 light-years from Earth,
but finding it won't be easy, says Bambi. Because black holes don't emit or reflect light, they are virtually invisible to telescopes...
Bambi points to nanocrafts ā gram-scale probes consisting of a microchip and light sail ā as a possible solution. Earth-based lasers would blast the sail with photons, accelerating the craft to a speed of light.
>The craft could reach a black hole in about 70 years. The data it gathers would take another two decades to get back to Earth, making the total mission duration around 80 to 100 years...
Bambi notes that the lasers alone would cost around one trillion euros today, and the technology to create a nanocraft does not yet exist. But in 33 years, he says that costs may fall anyway and technology may catch up to these bold ideas.
"However, we should realize that most of the future experiments in particle physics and astrophysics will likely require long time (for preparation, construction, and data collection) and the work of a few generations of scientists, be very expensive, and in many cases, we will not have other options if we want to make progress in a certain field."
size is they, we cant make an object bigger than a paperclip to travel through a wormhole
https://www.sciencedaily.com/releases/2025/08/250810093236.htm
his name is Bambi
prof. Bambi outlines the blueprint for turning this interstellar voyage to a black hole into a reality... "We don't have the technology now," he said "But in 20 or 30 years, we might."
Previous knowledge on how stars evolve suggests that there could be
>a black hole lurking just 20 to 25 light-years from Earth,
but finding it won't be easy, says Bambi. Because black holes don't emit or reflect light, they are virtually invisible to telescopes...
Bambi points to nanocrafts ā gram-scale probes consisting of a microchip and light sail ā as a possible solution. Earth-based lasers would blast the sail with photons, accelerating the craft to a speed of light.
>The craft could reach a black hole in about 70 years. The data it gathers would take another two decades to get back to Earth, making the total mission duration around 80 to 100 years...
Bambi notes that the lasers alone would cost around one trillion euros today, and the technology to create a nanocraft does not yet exist. But in 33 years, he says that costs may fall anyway and technology may catch up to these bold ideas.
"However, we should realize that most of the future experiments in particle physics and astrophysics will likely require long time (for preparation, construction, and data collection) and the work of a few generations of scientists, be very expensive, and in many cases, we will not have other options if we want to make progress in a certain field."
