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What scientist stated that electron paths cannot be predicted?
Niels Bohr, a Danish physicist, proposed the idea that electron paths cannot be precisely predicted. This concept is known as the "Copenhagen interpretation" of quantum mechanics, which suggests that the behavior of particles on a quantum level is inherently probabilistic.
Who discovered that electron paths cannot be predicted?
Niels Bohr proposed the theory that electron paths in an atom are unpredictable and follow certain fixed orbits. This concept was an important development in the field of quantum mechanics and helped to explain the stability of atoms.
What was the first antiparticle discovered?
The first antiparticle discovered was the positron, which is the antiparticle counterpart to the electron. It was predicted by Paul Dirac in 1928 and confirmed experimentally by Carl Anderson in 1932.
Who said electron paths cannot be predicted?
The idea of the path of an electron being unpredictable was presented by Werner Heisenberg. It was "packaged" as "Heisenberg's uncertainty principle" and that's how we know it today. What Heisenberg actually said was that if we look at an electron, the closer we look at its momentum, the less certain we are about its position. And if we look closely at its position, the less certain we can be about its momentum. There is a trade-off when we look for precision, and we cannot have our cake and eat it too. It's one or the other as regards accuracy.
Can exact path of a moving electron be predicted?
No, the exact path of a moving electron cannot be predicted due to the inherent probabilistic nature of quantum mechanics. Instead, predictions are made in terms of the probability distribution of where the electron is likely to be found.
What scientist stated that electron paths cannot be predicted?
Niels Bohr, a Danish physicist, proposed the idea that electron paths cannot be precisely predicted. This concept is known as the "Copenhagen interpretation" of quantum mechanics, which suggests that the behavior of particles on a quantum level is inherently probabilistic.
Who discovered that electron paths cannot be predicted?
Niels Bohr proposed the theory that electron paths in an atom are unpredictable and follow certain fixed orbits. This concept was an important development in the field of quantum mechanics and helped to explain the stability of atoms.
Who discovered electrons paths cannot be predicticed?
Erwin Schrodinger and Werner Heisenburg
Why can comets paths be predicted?
Comets are falling rocks, whose paths can be calculated quite precisely.
Electrons paths cannot be predicted?
Electron paths cannot be predicted with certainty, as they exhibit both wave-like and particle-like behaviors. The Heisenberg Uncertainty Principle states that it is impossible to know both the position and momentum of a particle with absolute precision, leading to unpredictable paths at the quantum level.
When is the actual day that Saturn was discovered?
It's unknown. Saturn was known in ancient times and the exact date cannot be predicted
Who said electron paths cannot be predicted and when?
Schrodinger and Heisenberg state that electrons cannot be predicted in 1927. It was stated that the more precisely the position of some particles are determined, the less precisely its momentum can be known.
When was germanium first discovered?
It was predicted by Dmitri Mendeleev in 1869, but discovered in 1886 by Clemens Winkler.
Which astronomer discovered that the planets orbit the sun in oval shaped paths called ellipses?
Kepler discovered that the planets orbit the sun in oval shaped paths called ellipses.
What did the gaps on Mendeleev's tabel represent?
He predicted that elements with the predicted properties would be discovered to fill in these gaps.
Who discovered the electrons are found in electron clouds not paths?
Kevin Lopez
What kinds of predictions did Mendeleev make using his table?
By placing the elements in order of their Atomic Mass then grouping them based on similar chemical properties, Mendeleev recognized that there were gaps in the pattern he made where elements should be. He predicted there were some elements yet to be discovered and predicted their chemical properties. The elements he predicted were later discovered and named germanium, gallium, and scandium.
