Новый (седьмой) сезон «Чёрного зеркала» реабилитировал для меня сериал после откровенно проходных предыдущих двух. В своё время шестой сезон я досмотрел с трудом: из пяти серий три вообще мимо сериала. А вот в седьмом, разве что, чуть проваливается эпизод о съёмках кино, но и в нём есть любопытные моменты. Остальное очень хорошо, в духе сериала. И ещё куча мелких отсылок к предыдущим сезонам.
Наверное с точки зрения высказывания самая интересная серия — первая, обыгрывающая зависимость от корпораций. Кажется, убеждённым сторонникам капитализма и нынешней экономический модели человечества нужно побольше такого смотреть, чтобы мы в какой-то момент не оказались в мире, который там показан. Хотя, вполне возможно, что уже оказались.
По эмоциям очень сильная пятая, о мужчине, который вспоминал давние отношения. Проникновенно, грустно. И технологии, которые там показаны, уже у нас на носу. По крайней мере делать трёхмерную сцену из фотографии мы уже умеем.
Понравилась задумка в серии про девушку-кондитера. Посмотрел бы побольше такого. Можно целый сериал даже: как разные люди справляются с такими способностями. Причём, сериал можно сделать очень мрачный, под лозунгом «бойся своих желаний».
В серии о роевом интеллекте было приятно увидеть Капальди, но сюжетный ход я разгадал с первых минут. Слишком много читаю и смотрю фантастики. Нечто подобное было в одном из эпизодов «The Outer Limits» (к слову, «Чёрное зеркало» не впервые почти дословно цитирует его).
Ну и продолжение Каллистера — очень в тему. Не так много серий «Зеркала» было бы уместно продолжать, выбор считаю крайне удачным. Конечно, никаких хитрых сюжетных флипов и глубоких мыслей там нет, но во многом от этого даже проще после в целом тяжёлых предыдущих эпизодов.
Короче, либо там кому-то настучали по голове после низких оценок предыдущих сезонов, либо сменились шоураннеры, но вера в сериал восстановилась.
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🌎 Unexpected time anomalies have been observed near strong gravitational fields, like black holes, due to "gravitational time dilation." This effect was confirmed by astronauts using precise atomic clocks, which run slower closer to massive objects compared to those farther away. In 2010, scientists measured time literally ticking faster by 33 microseconds per kilometer higher in altitude on Earth. ✨
#time⚡#physics⚡#relativity
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🌎 Time perception can change when moving at high speeds or near strong gravity, as predicted by Einstein's theory of relativity. Atomic clock experiments prove that time really passes more slowly for fast-moving objects or those closer to massive bodies like Earth—astronauts on the International Space Station age about 0.01 seconds less per six months compared to people on the ground. ✨
#time⚡#relativity⚡#physics
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🌎 Einstein's theory of relativity reveals that time can actually move slower or faster depending on gravity and speed. For example, atomic clocks on fast-moving satellites tick slightly slower than those on Earth’s surface—a phenomenon confirmed by GPS systems needing corrections due to these time differences. ✨
#time⚡#relativity⚡#physics
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🪐 In the center of the galaxy ESO 325-G004, astronomers have observed a dramatic example of space-time distortion called gravitational lensing, where the gravity from this massive galaxy bends and magnifies the light of more distant galaxies behind it. This real effect makes background galaxies appear as stretched arcs or multiple images, showing how the fabric of space can be warped by the presence of enormous masses, just as predicted by Einstein’s theory of general relativity. ✨
#wormholes⚡#relativity⚡#galaxies⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
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🪐 Just outside the event horizon of the supermassive black hole in galaxy NGC 1365, time slows significantly due to the black hole’s intense gravitational pull—a phenomenon called gravitational time dilation. For an observer far from NGC 1365, minutes near the black hole’s edge could translate into hours or even days in regular space, showing how extreme environments can dramatically stretch the flow of time itself. ✨
#blackholes⚡#spacetime⚡#relativity⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
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🪐 In the galaxy M87, where astronomers captured the first-ever image of a black hole, time dilation is so intense near its event horizon (the boundary around a black hole from which nothing—even light—can escape) that an outside observer would see time appear to nearly stop for anything close to the edge. This real effect, predicted by Einstein’s theory of general relativity, means a clock near the event horizon would tick dramatically slower compared to one far away from the black hole. ✨
#timedilation⚡#blackholes⚡#relativity⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
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🪐 Time flows differently near massive cosmic objects like black holes—an effect known as time dilation. For example, close to the supermassive black hole Sagittarius A* at the center of our galaxy, clocks would tick slower than on Earth due to its intense gravity; astronauts orbiting just outside its event horizon would age less quickly than those far away, making time itself stretch in extreme environments. ✨
#timedilation⚡#relativity⚡#blackholes⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
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🪐 Deep space travelers will experience time differently than people on Earth—a mysterious effect called time dilation. If astronauts took a fast journey to the star Sirius (8.6 light-years away) on a spaceship moving near the speed of light, their onboard clocks would run much slower than those back home, so they would age less during the trip—even while years passed on Earth. This real phenomenon comes straight from Einstein’s theory of relativity and shows how speed itself can turn space voyages into journeys through time. ✨
#timedilation⚡#relativity⚡#spaceships⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
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🪐 Einstein’s theory of relativity predicts dramatic space-time distortions in the violent heart of the galaxy M87, where its supermassive black hole bends not just light, but alters the very flow of time itself. As matter spirals inward, space-time warps so much that signals escaping from near the event horizon—the point of no return—are stretched and delayed, making M87’s core a real example of nature’s most extreme distortions. ✨
#wormholes⚡#spacetime⚡#relativity⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
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🪐 Space-time, the "fabric" that weaves together space and time, is not always smooth—giant objects like the supermassive black hole at the center of our galaxy, Sagittarius A*, warp and stretch it so much that both light and time bend around them. These real cosmic distortions, predicted by Einstein’s theory of general relativity, are seen as stars orbit that black hole on paths twisted by its immense gravity, giving us direct evidence that space itself can be bent and curved by massive objects in the universe. ✨
#wormholes⚡#spacetime⚡#relativity⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
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🪐 In 1977, the Voyager 1 spacecraft passed near Jupiter, and its onboard clocks experienced a tiny but measurable time dilation due to the planet's gravity. This real effect, predicted by Einstein's theory of general relativity, means time ticked just a little slower for Voyager as it flew close to massive Jupiter than it did for clocks far from the giant planet—showing that even in our own solar system, gravity can subtly warp the flow of time. ✨
#timedilation⚡#Jupiter⚡#relativity⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
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🪐 On Mercury, time passes at a different rate than on Earth because the planet orbits much closer to the Sun and feels stronger gravity—a real effect called time dilation. According to Einstein's theory of relativity, stronger gravity slows down the flow of time, so a clock sitting on Mercury's surface would actually run slightly slower than an identical clock on Earth, making time itself stretch differently across the solar system. ✨
#timedilation⚡#relativity⚡#mercury⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
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