no. the current theory is that the electrons move randomly in the outer most part of a molecule in part called the "electron cloud" which is just swirling mass of electrons with no predictable path
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.
In the electron cloud model, electrons are predicted to be located in the electron cloud 100% of the time. This model suggests that electrons do not orbit the nucleus in fixed paths like planets around the sun, but rather exist as a probability distribution around the nucleus.
ya, i think it is in definite paths around the nucleus.
the paths of moving electrons are called rings or shells
nope
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.
The concept that paths cannot be predicted is often attributed to Edward Lorenz, a meteorologist and mathematician. His work in chaos theory and the famous "butterfly effect" highlighted the sensitivity of certain systems to initial conditions, leading to unpredictable outcomes.
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.
Erwin Schrodinger and Werner Heisenburg
In the electron cloud model, electrons are predicted to be located in the electron cloud 100% of the time. This model suggests that electrons do not orbit the nucleus in fixed paths like planets around the sun, but rather exist as a probability distribution around the nucleus.
Comets are falling rocks, whose paths can be calculated quite precisely.
No, the motion of electrons cannot be predicted precisely due to the inherent uncertainty described by quantum mechanics. The Heisenberg uncertainty principle states that it is impossible to precisely know both the position and momentum of a particle at the same time.
no
ya, i think it is in definite paths around the nucleus.
Negative charged
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.
the paths of moving electrons are called rings or shells