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Niels Bohr

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12y ago

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Who found that electrons can jump from a path in one level to a path in another level?

Bohr


Who discovered that electrons can jump from a path from 1 level to a path in another level?

Bohr


What do you get when a large build up of electrons jump?

Electricity is created by the movement of electrons in a particular direction. A large jump of electrons results in sparks, or even lightning.


How do you go through the secret path in Mythology?

First you jump on the tree then your on the path


Who discovered electronss jump between levels from path to path?

I believe it was Niels Bohr.


When a large buildup of electrons jump you get what?

you get a short


What is a path formed by the conductors for electrons?

That path might be called a circuit. If the path is complete, it's a closed circuit.


What do we call a complete unbroken path for electrons to allow?

A continuous unbroken path of electrons is a closed circuit. If there is an opening, then it is an open circuit.


What do you call the rings that electrons jump to in an atom?

Orbitals


The path of electrons around the nucleus is compared to?

The path of electrons around the nucleus is most commonly compared to the motion of planets around the sun in our solar system. This comparison helps to visualize the idea of orbits or energy levels in which electrons exist in an atom. However, it's important to note that electrons do not actually follow a fixed path like planets; their movement is described by quantum mechanics and is better understood through probability distributions.


For electrons to flow continuously through a conductor there must be a?

closed electrical circuit that provides a path for the electrons to flow from a high potential to a low potential.


How the path of an electrons differs in Bohr's model and in the modern model of the atom?

In Bohr's model, electrons travel in a direct, determined path around the nucleus. In the modern model of the atom, electrons behave more like waves on a vibrating string. Basically the electron's path cannot be predetermined.