ππ³οΈ Unlocking the Paradox of Black Hole Mass ππ³οΈ
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Have you ever wondered how black holes continually grow their mass? π€ Let's explore the fascinating paradox and shed light on this mind-bending concept. π π
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As matter gets absorbed by black holes from their surrounding space, their mass increases over time. But how does this happen? ππ«
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Imagine a spaceship venturing towards a black hole. As it approaches, the strong gravitational field causes the emitted light to lose energy, resulting in a redshift observed by distant onlookers. πππ΄
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Curiously, when the spaceship nears the black hole's event horizon, the light signal weakens to the point where it becomes imperceptible. ππβ
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But here's where things get intriguing! If an observer could witness the spaceship's journey, they would notice a peculiar effect. Time near the black hole slows down significantly, while the passengers onboard perceive time to pass normally. βππ¨βπ
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So, what happens when the spaceship approaches the event horizon? Contrary to intuition, it's not the spaceship that crosses the event horizon, but rather the event horizon that expands to engulf the spaceship. πππ³οΈ
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Here lies the resolution to the paradox. As objects approach a black hole, their mass contributes to its gravitational field, causing the event horizon to move outward. The trapped objects remain within the new event horizon, forever frozen in time. πβ³π
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In this astonishing way, black holes can grow in mass and size. The matter absorbed by the black hole becomes part of its gravitational influence, fueling its expansion and defying expectations. π«ππ
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By unraveling the Paradox of Black Hole Mass, we gain insight into the awe-inspiring mechanisms that shape our universe. πβ¨
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#BlackHoleParadox #Astrophysics #TimeDilation #EventHorizon #CosmicMysteries #UniverseWonders
can a person survive in a black hole?
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