Albert Einstein's work contributed to the atomic theory by proposing the concept of quantization, which helped explain the behavior of light and laid the foundation for the development of quantum mechanics. This work led to the understanding of how energy is transferred in discrete units, or quanta, which was a crucial advancement for the atomic theory.
a new model of the atom that describe electrons as being in a cloud
Albert Einstein did not directly contribute to the development of the atomic bomb. However, his famous equation E=mc^2 laid the theoretical groundwork for understanding the energy released in nuclear reactions, which was crucial for the development of the atomic bomb by scientists like J. Robert Oppenheimer and others involved in the Manhattan Project.
Albert Einstein's major accomplishments include developing the theory of relativity, which revolutionized the understanding of space, time, and gravity; explaining the photoelectric effect, which laid the groundwork for quantum theory; and making significant contributions to the development of atomic theory and the concept of mass-energy equivalence, summarized in the famous equation E=mc^2.
Albert Einstein's contribution to the understanding of the photoelectric effect was to propose that light is quantized into discrete particles called photons. This theory explained how light can eject electrons from a material, leading to the development of quantum mechanics. Einstein's work was crucial in advancing our understanding of light-matter interactions at the atomic level.
He didn't. He'd worked a little on the theories about energy release, but he had nothing to do with turning it into a functioning weapon. Einsteins only personal involvement with The Manhattan Project was to persuade the then president, Franklin Roosevelt, that modern research would be used by others to develop an atomic bomb and that America needed to build one first.
Creation of the atomic bomb
a new model of the atom that describe electrons as being in a cloud
Albert Einstein did not directly contribute to the development of the atomic bomb. However, his famous equation E=mc^2 laid the theoretical groundwork for understanding the energy released in nuclear reactions, which was crucial for the development of the atomic bomb by scientists like J. Robert Oppenheimer and others involved in the Manhattan Project.
In physics, mass-energy equivalence is the concept that mass and energy are the same thing. This is better known in its formula E=MC2 developed by Albert Einstein, which led to nuclear binding (and splitting?) which ultimately provided the basis for the atomic bomb.
Albert Einstein, he and a team of scientists worked on the Manhattan project which resulted in the creation/invention of nuclear weaponry
albert inestien
Yes, Robert Oppenheimer made a significant contribution to New Mexico by leading the Manhattan Project, which resulted in the development of the first atomic bomb at Los Alamos. This project had a lasting impact on the state's economy and scientific community.
no!
Albert Einstein's major accomplishments include developing the theory of relativity, which revolutionized the understanding of space, time, and gravity; explaining the photoelectric effect, which laid the groundwork for quantum theory; and making significant contributions to the development of atomic theory and the concept of mass-energy equivalence, summarized in the famous equation E=mc^2.
Atomic Theory
Albert Eisenstein
Albert Einstein