Lots of scientists were involved in developing quantum physics, including Planck, Einstein, Bohr, Schrödinger, Heisenberg, Dirac, and others.
Physicists use a wide range of technologies in their research, including particle accelerators, telescopes, detectors, spectrometers, and computational simulations. These technologies help physicists study the fundamental laws of nature, explore the properties of matter and energy, and make discoveries in fields such as quantum mechanics, relativity, and cosmology.
Albert Einstein (mathematician not a physicist) developed the Theory of Relativity. Many other mathematicians and physicists (both theoretical and experimental) evaluated, verified, expanded, and simplified its calculations and how it is taught.
Physicists study a wide range of topics, including classical mechanics, electromagnetism, thermodynamics, quantum mechanics, particle physics, and astrophysics. They aim to understand the fundamental laws that govern the behavior of matter and energy in the universe.
The list of physicists consists of physicists known for their achievements. A few include Carl David Anderson, an American physicist, known for his discovery of the positron, and David Albert who is known for his published works, "Time and Chance" and "Quantum Mechanics and Experience."
Physicists have developed an understanding of natural laws through a combination of theoretical frameworks, experimental observations, and mathematical models. By designing experiments to test hypotheses, analyzing data, and refining theories based on results, physicists have been able to deepen their insights into how the universe works. This iterative process has led to the development of modern physics theories, such as quantum mechanics and general relativity, which provide a comprehensive framework for understanding fundamental principles of the natural world.
This is the question that physicists all around the world are trying to answer. When they come up with one I'll be sure to get back to you. This area is primarily the work of string theorists.AnswerI think the previous answerer misread the question. If the question had been "When and where do general relativity and quantum mechanics overlap?" then this answer would have been fine. But there is no conflict between Newton's Laws and quantum mechanics. More precisely: If you take quantum mechanics and let Planck's constant tend to 0, you get Newtonian physics. (Or special relativity - but if you then let the speed of light tend to infinity you get Newtonian physics.) In other words, classical physics is a special case of quantum physics. If you avoid doing experiments with very small or very fast things, Newton's laws will hold.
Physicists are scientists who specialize in studying the laws and principles that govern matter and energy. While all physicists are scientists, not all scientists are physicists - scientists encompass a broader range of disciplines beyond just physics.
There is no quantum physics of a moose. Quantum physics is a type of theoretical physics, and its laws do not apply to physical objects
When theoretical physicists work on equations and don't test their hypothesis, experimental physicists test their hypothesis and verify their conclusion. Usually theoretical physicists work on things like black holes and string-theory when experimental physicists work on Newtonian laws.
Physicists study the behavior and interactions of matter and energy in the universe. They seek to understand the fundamental laws and principles that govern the natural world, and apply this knowledge to solve a wide range of problems and make new discoveries in fields such as quantum mechanics, relativity, and particle physics.
Albert Einstein - general theory of relativity Isaac Newton - laws of motion and universal gravitation Niels Bohr - atomic structure and quantum theory Marie Curie - research on radioactivity Max Planck - quantum theory of radiation Galileo Galilei - contributions to observational astronomy Richard Feynman - quantum electrodynamics Werner Heisenberg - principle of uncertainty Stephen Hawking - black hole radiation theory James Clerk Maxwell - equations of electromagnetism.
There are many memorable physicists - One of the more memorable is Sir Isaac Newton.