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Source channel @olddriverGDstudy · Post #29 · Mar 17

搜索使用说明 #搜索指南 因为电报软件对中文搜索支持不好,大队特别对队内资源搜索进行了整理汇集,使用方法说明如下: 1.1 原理: 电报对中文搜索支持不佳,汉字只有在前后含有asic码字符的前提下可以被正确搜索出,如 _广州修车大队_ (“_”指代空格)、(广州修车大队);等形式可以搜索“广州修车大队”搜索出相关信息;搜索“广州”等未被asic码间隔的汉字无法正确显示。 为正确搜索,在编制频道资源时,对重要信息可以采取Hashtag的形式已方便搜索,即以"#"字符开头,接汉字,以“空格字符”结尾的形式,点击一个hashtag即可快速定位该频道或聊天群内所有相同标签,建议所有管理在编辑重要资料包括ls信息、广播台、学习频道时正确使用hashtag。 !!注意标签不要随意编写,要参考搜索指南中有的标签类型!! 1.2 JS资源定位: JS目前支持 Hasgtag(#K老师)、数字标签(#GZ003)的搜索方式,在对应榜单和报告区中试用上述方式均可查找到JS的相关信息。 使用举例:在“广州公开榜”或“广州修车大队”的搜索栏中输入 #K老师 或 #GZ003,均可定位到K老师资料页;在报告区的搜索栏中输入#K老师 或 #GZ003,均可定位到K老师的验证报告。这两者是快速了解JS基本信息和评价的便捷办法。 1.3 标签查找 公榜榜单目前均支持标签查找,可以快速定位某种类型或地区的所有JS,目前仅支持Hashtag查找,目前常用标签解释如下: 地区标签: 一定要使用一级标签,例如 #天河区(注意不要有错别字) #颜值: 不解释 #服务: 评价中92、95的,有场子出身花式水平的,均会归入此类; #大胸: 不解释,一般D以上归入此类; #长腿: 不解释,一般168以上归入此类; #身材: 不解释,较为宽松; #嫩妹: 22岁以下或者长相很嫩的,白小纯的,loli系的,cos系的归入此类; #熟女: 30岁以上风韵犹存的,归入此类; #特服: 提供3p、3t、wt、字母等特殊服务的JS归入此类。 使用举例:在红榜的搜索栏中输入 #长腿,可以快速查看“莉贝伦”等8位长腿JS。 类型标签评价目前非常主观,有不妥之处请队内私信 JackJack 或其他管理人员修改。 1.4 资料查找 目前学习频道中试用hashtag来快速定位资料,目前使用的标签有如下几种: #安全CJ#素质CJ#卫生CJ #搜索指南 #大队玩法 #语录#秀哥语录 #技巧#知识

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Interesting Planet 🌍

@interesting_planet_facts · Post #1270 · 02/03/2026, 12:11 PM

🌎 Scientists believe most of the universe’s mass comes from dark energy, a mysterious force causing space to expand faster over time. Dark energy makes up about 68% of everything in the universe, yet its true nature remains unknown despite decades of study. ✨ #space⚡#cosmology⚡#astronomy 👉subscribe Interesting Planet 👉more Channels ​

Interesting Planet 🌍

@interesting_planet_facts · Post #626 · 08/25/2025, 01:22 PM

🌎 At the edge of the observable universe, mysterious “dark flow” tugs galaxy clusters in the same direction, hinting at unseen forces or realms beyond our cosmic horizon. This puzzling movement can’t be explained by known gravity alone, sparking debate about what lies outside the visible universe. ✨ #space⚡#universe⚡#cosmology 👉subscribe Interesting Planet ​

Interesting Planet 🌍

@interesting_planet_facts · Post #1263 · 01/30/2026, 10:11 PM

🌎 Multiple theories in modern physics suggest parallel worlds or dimensions could exist, but no direct experimental evidence has ever been found. String theory predicts extra spatial dimensions, and some cosmological models propose the idea of a "multiverse," where many universes exist with different physical laws. As of 2024, all searches for measurable proof—such as deviations in gravity or missing energy—have reported no confirmed signs of parallel worlds. ✨ #physics⚡#multiverse⚡#cosmology 👉subscribe Interesting Planet 👉more Channels ​

Interesting Planet 🌍

@interesting_planet_facts · Post #838 · 09/30/2025, 06:11 PM

🌎 In physics, the concept of a "multiverse" proposes that our universe could be just one of many coexisting universes, each with different physical laws. This idea arises in cosmic inflation theory, where rapid early expansion could have created countless separate "bubble universes." The multiverse hypothesis is explored by leading scientists but remains unproven, and no direct evidence has yet been observed. ✨ #multiverse⚡#cosmology⚡#physics 👉subscribe Interesting Planet 👉more Channels ​

Interesting Planet 🌍

@interesting_planet_facts · Post #907 · 10/14/2025, 03:11 PM

🌎 The concept of a "mirror universe" is explored in cosmology, referring to the idea of a universe with particles and forces that mirror our own but interact only through gravity. While no evidence currently supports their existence, theories suggest mirror matter could help explain mysteries like dark matter. Researchers at Oak Ridge National Laboratory have tested for potential interactions but found no signs so far. ✨ #parallelworlds⚡#physics⚡#cosmology 👉subscribe Interesting Planet 👉more Channels ​

Interesting Planet 🌍

@interesting_planet_facts · Post #844 · 10/01/2025, 08:11 PM

🌎 The mysterious "cold spot" in the cosmic microwave background is a vast region of space cooler than its surroundings. Some scientists think it may be the result of a gigantic supervoid—an unusually empty part of the universe spanning nearly 1.8 billion light-years across. This cold spot is one of the largest anomalies detected in the afterglow of the Big Bang, challenging current models of cosmic structure. ✨ #universe⚡#cosmology⚡#supervoid 👉subscribe Interesting Planet 👉more Channels ​

Universe Mysteries 🪐

@cosmomyst · Post #518 · 11/24/2025, 10:21 PM

🪐 The cosmic microwave background contains a hidden signature called the "Sachs-Wolfe effect," where variations in temperature are linked to the gravitational pull of massive structures like galaxy clusters. This effect, first detected in the 1990s using data from the COBE and WMAP satellites, shows how even the oldest light in the universe was influenced by the invisible gravity of objects such as the Coma Cluster and the Great Attractor, providing a glimpse into how matter was distributed across the cosmos more than 13 billion years ago. ✨ #cosmology⚡#gravity⚡#universe⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#cosmos⚡#space 👉subscribe Universe Mysteries 👉more Channels ​

Universe Mysteries 🪐

@cosmomyst · Post #582 · 12/26/2025, 12:21 PM

🪐 The ultimate fate of the universe may come in a dramatic event known as the "Big Rip," where the repulsive force of dark energy—an unseen force causing galaxies like Sombrero Galaxy (Messier 104) to speed away from each other—could grow so strong that it eventually tears apart galaxy clusters, stars, planets, and even atoms themselves. If the Big Rip happens, it would be the final act in cosmic history, ending everything from the largest galaxy clusters down to the smallest subatomic particles in a relentless expansion. ✨ #universe⚡#darkenergy⚡#cosmology⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#cosmos⚡#space 👉subscribe Universe Mysteries 👉more Channels ​

Universe Mysteries 🪐

@cosmomyst · Post #430 · 10/15/2025, 10:21 PM

🪐 The ultimate fate of the universe is still a mystery, but scientists study clues from galaxies like Messier 87 and the emptying regions between them to predict what lies ahead. Over trillions of years, after all the stars burn out—including giants like Betelgeuse—and black holes such as Sagittarius A* slowly evaporate, space will stretch into a cold, dark expanse with only faint traces of ancient matter drifting across an ever-growing emptiness. ✨ #universe⚡#fate⚡#cosmology⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#cosmos⚡#space 👉subscribe Universe Mysteries 👉more Channels ​

Universe Mysteries 🪐

@cosmomyst · Post #255 · 09/11/2025, 03:11 AM

🪐 Scientists believe the universe's end could unfold in several dramatic ways, including the "Big Rip," where dark energy tears galaxies, stars, and even atoms apart. In contrast, the "Big Crunch" scenario imagines gravity eventually halting expansion and pulling everything—including galaxies like the Milky Way—back together in a catastrophic collapse. Another possibility is the "Big Freeze," where the expansion continues until the last stars, like our Sun, burn out and the universe grows eternally cold and dark, filled only with faint remnants like white dwarfs and black holes. ✨ #universe⚡#fate⚡#cosmology⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#cosmos⚡#space 👉subscribe Universe Mysteries ​

Universe Mysteries 🪐

@cosmomyst · Post #516 · 11/23/2025, 10:21 PM

🪐 The end of the universe is a cosmic puzzle with several real scenarios proposed by scientists, each based on clues from galaxies like Messier 87 and ancient light observed by telescopes. One idea is the "Big Bounce," where the universe’s expansion might someday reverse due to gravity, causing everything—including stars such as Betelgeuse and black holes like Sagittarius A*—to collapse back into an ultra-dense state, possibly leading to another cosmic cycle. Unlike the "Big Freeze" or "Big Rip," the "Big Bounce" is still debated, but it shows how the fate of the universe could depend on the balance between gravity and mysterious forces such as dark energy. ✨ #universe⚡#cosmology⚡#expansion⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#cosmos⚡#space 👉subscribe Universe Mysteries 👉more Channels ​

Universe Mysteries 🪐

@cosmomyst · Post #439 · 10/17/2025, 08:21 PM

🪐 The cosmic microwave background is not just a faint afterglow—embedded within it are tiny, swirling patterns called "polarization anomalies," first mapped in detail by the Planck satellite. These twists in the microwave light tell scientists how matter and light interacted in the early universe, revealing clues about the first few moments after the Big Bang and hinting at processes like cosmic inflation—an explosive expansion that happened in fractions of a second. ✨ #cosmology⚡#universe⚡#bigbang⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#cosmos⚡#space 👉subscribe Universe Mysteries 👉more Channels ​

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