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  The Cosmic Magnifying Glass Unlocking the Universe's Secrets Introduction The universe abounds with cosmological phenomena defying our conceptualization of space and time. The most captivating implication of Einstein's General Theory of Relativity is arguably gravitational lensing. This celestial telescope enables astronomers to peer into remote galaxies, hunt for exoplanets, and investigate dark matter. In this article, we discuss how gravitational lensing takes place, why it matters to contemporary astronomy , and the current findings transforming our comprehension of the universe. What is Gravitational Lensing? Gravitational lensing takes place when a massive object, for example, a galaxy or a black hole, warp the light coming from a more distant object. It is a logical extension of Einstein's general relativity theory that massive objects deform spacetime and light follows curved trajectories. Types of Gravitational Lensing There exist three forms of gravitat...

Dark Matter: The Hidden Force Shaping Our Universe Introduction The universe is a vast and mysterious expanse filled with celestial wonders, yet one of its most perplexing components remains unseen— dark matter . Scientists believe that dark matter makes up about 27% of the universe , yet it does not emit, absorb, or reflect light, making it invisible to traditional observational methods. Despite its elusive nature, dark matter exerts a significant gravitational pull, shaping galaxies and influencing cosmic evolution. But what exactly is dark matter, and how do we study something we cannot see? In this article, we explore the latest discoveries, theories, and ongoing research about dark matter—one of the greatest cosmic mysteries. What is Dark Matter? Dark matter is a form of non-luminous matter that does not interact with electromagnetic forces. Unlike ordinary matter, which consists of protons, neutrons, and electrons, dark matter does not emit or absorb light, making it comp...

Dark Matter Unveiled: New Breakthroughs in Cosmic Mysteries @DarkMatterUnveiled 🌌✨ Introduction Dark matter is a mysterious substance in the universe that has puzzled scientists for many years. It is invisible and cannot be directly observed, yet it is believed to make up about 85% of all matter in the universe. Dark matter plays a crucial role in shaping galaxies, influencing cosmic structures, and affecting the distribution of visible matter. Recent scientific breakthroughs have brought us closer to understanding dark matter. Research teams around the world, including those at the University of Toronto and Nanyang Technological University, have made significant progress in uncovering its secrets. These discoveries challenge our traditional understanding of the universe and open up new avenues for exploration. The importance of dark matter goes beyond just academic interest: It holds galaxies together like a cosmic scaffold It helps in the formation of large-scale structures It a...