Oh, honey, scientists understand and explain how the universe works through good old observation, experimentation, theorizing, and a sprinkle of math. They gather data, analyze current theories, and then get all Einstein on us to come up with new ones. Think of it as one big cosmic puzzle they're always trying to solve – just with more lab coats and fewer breadcrumbs.
Computer models allow scientists to simulate complex systems and processes that are difficult to study directly. They can incorporate a wide range of variables and interactions, helping researchers better understand and predict phenomena in the universe. By running simulations, scientists can test hypotheses, explore different scenarios, and make predictions about how the universe works.
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Nobody discovered the universe. We have always known that the universe exists. Discoveries of how the universe works and what it is have been made by many people.
Scientists support the Big Bang theory with multiple pieces of evidence, including the expansion of the universe, the cosmic microwave background radiation, the abundance of light elements in the universe, and the distribution of galaxies. These observations collectively point to a universe that began as a singularity and has been expanding and evolving ever since.
Forces hold the Universe together. On a closer to home base, the forces also hold our solar system together, allowing us to ask questions on Answers.com. (Gravity exerts a weak force the works from long distances, EM exerts a strong force that works from long distances, and Nuclear forces would take too long to explain.)
Scientists seek to discover new laws of the universe in order to expand our understanding of the natural world, improve technology, and make predictions about future phenomena. By uncovering these laws, scientists can better explain the behavior of the universe and potentially solve complex problems facing society.
Newton helped us to understand How our Universe works and how to work the Universe.
Computer models allow scientists to simulate complex systems and processes that are difficult to study directly. They can incorporate a wide range of variables and interactions, helping researchers better understand and predict phenomena in the universe. By running simulations, scientists can test hypotheses, explore different scenarios, and make predictions about how the universe works.
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Physics is the natural science that studies the fundamental aspects of matter, energy, space, and time. It seeks to explain how the universe works, from the smallest particles to the largest galaxies. Physicists use mathematical models and experiments to understand the fundamental laws that govern the universe.
Anybody with sufficient intelligence can be a scientist by the applying scientific method to answering questions about how the universe works.
The main purpose of physics is to understand and explain the fundamental principles that govern the behavior of the universe, from the smallest particles to the largest galaxies. It seeks to uncover the underlying laws of nature and use them to predict and explain the physical phenomena we observe.
The idea is to learn how the Universe works. Scientists hope that with higher energies, new kinds of particles will be discovered, and that these could give more clues about how the Universe works.
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Without physics, there would be no understanding of how the universe works, no laws governing the behavior of matter and energy, and no scientific framework to explain natural phenomena. Essentially, the fabric of reality as we know it would cease to function and the universe would be a chaotic and unpredictable place.
Scientists seek to discover new laws of the universe to better understand how the world works and to improve our ability to predict and control natural phenomena. These laws provide a framework for explaining complex phenomena and advancing technology and innovation. By uncovering new laws, scientists can push the boundaries of our knowledge and drive progress in various fields.
The way the universe works now is the same as how it did in the past, as well as how it will work in the future, which is unverifiable and therefore must be assumed. Some examples: - Scientists assume that there is no way to secure complete and absolute truth - Secular scientists assume that the earth and universe were not created supernaturally. - Scientists assume that natural laws we identify will apply to all of the universe - Scientists assume that they all work towards the common good - Scientists assume life can evolve on earth in the presence of water - Most scientists assume near-death experiences and out-of- body experiences are a result of a lack of oxygen in the brain