• Ever wondered what time feels like near a black hole? According to Einstein’s Theory of General Relativity, time doesn’t just tick — it warps.

    The gravity near a black hole is so intense that one hour close to it could equal thousands of years on Earth. Space and time literally stretch under the weight of this cosmic monster.

    It's not science fiction — it's physics.

    Could time travel start with understanding gravity?
    Ever wondered what time feels like near a black hole? According to Einstein’s Theory of General Relativity, time doesn’t just tick — it warps. The gravity near a black hole is so intense that one hour close to it could equal thousands of years on Earth. Space and time literally stretch under the weight of this cosmic monster. It's not science fiction — it's physics. Could time travel start with understanding gravity?
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  • microwave physics go brrr
    microwave physics go brrr
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  • From equations to the edge of the universe.

    It’s astonishing how ideas once scribbled on paper—rooted in pure thought and mathematics—have unlocked the secrets of black holes, galaxies, and time itself.

    The universe may be vast, but it speaks a language we’ve slowly learned to understand: math.

    #Cosmos #Astrophysics #MathInNature #UniverseExplained #ScienceWonder #SpaceTheories
    From equations to the edge of the universe. It’s astonishing how ideas once scribbled on paper—rooted in pure thought and mathematics—have unlocked the secrets of black holes, galaxies, and time itself. The universe may be vast, but it speaks a language we’ve slowly learned to understand: math. #Cosmos #Astrophysics #MathInNature #UniverseExplained #ScienceWonder #SpaceTheories
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  • Physics
    Physics
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  • Astronomers have detected mysterious radio signals from deep space — and they’re coming from a small red dwarf star paired with a white dwarf in a binary system. These signals repeat every 2 hours, lasting 30–90 seconds at a time.

    Originally believed to come from magnetars or neutron stars, the bursts were later traced to this dynamic stellar duo. Scientists think the magnetic interaction during their orbit is triggering these powerful emissions — like a cosmic beacon pulsing across the universe.

    #SpaceDiscovery #RadioSignals #RedDwarf #WhiteDwarf #BinaryStarSystem #Astrophysics #DeepSpace #UniverseMysteries
    Astronomers have detected mysterious radio signals from deep space — and they’re coming from a small red dwarf star paired with a white dwarf in a binary system. These signals repeat every 2 hours, lasting 30–90 seconds at a time. Originally believed to come from magnetars or neutron stars, the bursts were later traced to this dynamic stellar duo. Scientists think the magnetic interaction during their orbit is triggering these powerful emissions — like a cosmic beacon pulsing across the universe. #SpaceDiscovery #RadioSignals #RedDwarf #WhiteDwarf #BinaryStarSystem #Astrophysics #DeepSpace #UniverseMysteries
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