Lots of scientists contributed much to the development of physics; I would not find it appropriate to single out one of them. Any text on the history of science - or of physics - will tell you about some of the individuals that contributed.
One of the many reasons why QM is interesting is because no single person is responsible for it. The list that follows is by no means comprehensive: P.A.M. Dirac (bra-ket notation, Dirac equation, predicted positron) Erwin Schrodinger (derived wave equation) Werner Heisenberg (uncertainty principle, matrix formulation) Niels Bohr (Correspondence principle, Copenhagen interpretation) Max Planck (Planck's constant) Max Born (statistical interpretation, Heisenberg's boss) Pascual Jordan (matrix formulation) Albert Einstein was engaged in debate about QM, but was deeply troubled by its philosophical ramifications (see EPR paradox) Many people are unfairly overlooked in this list, but it will get you started at least. Obviously, only a couple of their accomplishments are listed. Each person did much more than what I listed.
Albert Einstein's work laid the foundation for much of modern physics, especially his theory of relativity which revolutionized our understanding of space, time, and gravity. His research also contributed to the development of technologies such as nuclear power and GPS. Additionally, his ideas continue to inspire scientific inquiry and exploration.
"Physics" pretty much covers it. It's difficult to overstate the importance of Newton to classical physics. "Modern Physics" is non-Newtonian, but just about everything in physics that was known prior to, say, 1890 can be traced directly or indirectly back to Newton.
Albert Einstein is important because he revolutionized the field of physics with his theories of relativity, which changed our understanding of space, time, and gravity. He also made significant contributions to the development of quantum mechanics and his work laid the foundation for many technological advancements in the 20th century. Einstein's ideas continue to influence science and society today.
A scientist would say nothing. Physics is what made and created the universe and controls it. Myself and other people like me would say magic. This is a much disputed argument. For the first is that physics itself could break it's own laws. Someone could also argue magic is a form of physics. Sadly the real answer is no one actually knows.
A mechanical engineer is not a scientist, they just implement the knowledge of the scientist in design. If you want to become a robotics scientist, you will need as much math and physics classes you can take. Focus on mechanics and higher level math classes.
Islam contributed positively to civilization and even they had their own Islamic civilization that contributed so much to Europe development.
Maybe but I'm not sure. You could try but my idea is maybe not.
Yes, quite by coincidence. He was a theologian and scientist, and didn't know at the time that some of what he was discovering and writing about would much, much later be used to create the science called Physics.
A scientist does a lot.
One of the many reasons why QM is interesting is because no single person is responsible for it. The list that follows is by no means comprehensive: P.A.M. Dirac (bra-ket notation, Dirac equation, predicted positron) Erwin Schrodinger (derived wave equation) Werner Heisenberg (uncertainty principle, matrix formulation) Niels Bohr (Correspondence principle, Copenhagen interpretation) Max Planck (Planck's constant) Max Born (statistical interpretation, Heisenberg's boss) Pascual Jordan (matrix formulation) Albert Einstein was engaged in debate about QM, but was deeply troubled by its philosophical ramifications (see EPR paradox) Many people are unfairly overlooked in this list, but it will get you started at least. Obviously, only a couple of their accomplishments are listed. Each person did much more than what I listed.
How much do Actuarial Scientist earn?
J.J. Thomson is best known for his discovery of the electron in 1897, which fundamentally changed the understanding of atomic structure. He conducted experiments using cathode rays, leading to the conclusion that these rays were composed of negatively charged particles much smaller than atoms. This discovery contributed to the development of the field of atomic physics and paved the way for later models of the atom, including the plum pudding model. Thomson's work earned him the Nobel Prize in Physics in 1906.
For Physics and Engineering yes, but not so much for Chemistry.
Albert Einstein's work laid the foundation for much of modern physics, especially his theory of relativity which revolutionized our understanding of space, time, and gravity. His research also contributed to the development of technologies such as nuclear power and GPS. Additionally, his ideas continue to inspire scientific inquiry and exploration.
"Physics" pretty much covers it. It's difficult to overstate the importance of Newton to classical physics. "Modern Physics" is non-Newtonian, but just about everything in physics that was known prior to, say, 1890 can be traced directly or indirectly back to Newton.
They founded Salt Lake City and pretty much all of Utah. They made the Oregon trail famous and they contributed mostly to the Donner party incident.