The path an electron takes around the nucleus is an ellipse, the same as the earth around the sun.
The path is is a ellipse. The difference is the redshift of the electron is quantized by the Fine Structure Constant. cos(angle)= Alpha/n = 7.2E-3/n.
Energy level
shell
An electron's path around the nucleus defines it's energy level.
There are located outside the nucleus , revolving it in different energy levels , no positions are 100% sureNeutrons and Protons make up the main mass of an atom, electrons orbit this main mass.They ae around the nucleus. They are in energy levels
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.
Electrons don't travel along a set "path". . .they're actually not really entirely particles. Electrons have properties of both particles and waves, so they tend to aggregate in certain specific areas around a nucleus called orbitals and sort of. . .vibrate around in those areas. But they don't travel in a set path, b/c they're not particles.
the bohr model suggests that electrons follow orbits around the nucleus. Quantum mechanics describes electrons differently and gives them different properties. It tells us where an electron is most likely to be found but no defined path of motion around the nucleus
The path of electrons around the nucleus is compared to the path of planets around the sun.
An electron's path around the nucleus defines it's energy level.
An electron doesn't have specific orbital path about an atomic nucleus. They move in specific energy levels that we identify as specific electron orbitals. But recall that the area where the electrons hang out is called the electron cloud. It's a "fuzzy zone" where electrons may be found. Electrons don't have specific routes about any atomic nucleus.
There are located outside the nucleus , revolving it in different energy levels , no positions are 100% sureNeutrons and Protons make up the main mass of an atom, electrons orbit this main mass.They ae around the nucleus. They are in energy levels
Electrons move in a random manner around the nucleus. hence do not follow a fixed path. Yet electrons do have a fixed energy level due to which the probable path traced by them is predictable. Over all, electrons are found in the form of clouds.
Lithium is element number 3Its nucleus contains 3 protons and 4 neutrons (Atomic Mass=7) and there are 3 electrons in orbit around the nucleus.Since there can be only 2 electrons in any orbit. the third electron orbits in a second orbital path, further out from the nucleus.
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.
Electrons don't travel along a set "path". . .they're actually not really entirely particles. Electrons have properties of both particles and waves, so they tend to aggregate in certain specific areas around a nucleus called orbitals and sort of. . .vibrate around in those areas. But they don't travel in a set path, b/c they're not particles.
No. Electrons will orbit around an atom only at specific energies (which change depending on the atom's atomic number and atomic mass). If you try to use a photon to change the energy of an electron and move it to another orbit path (or "energy level"), and the photon has the wrong energy in it, the electron won't change its orbit.
the bohr model suggests that electrons follow orbits around the nucleus. Quantum mechanics describes electrons differently and gives them different properties. It tells us where an electron is most likely to be found but no defined path of motion around the nucleus
love compassion No, but funny. The correct answers is because He proposed that electrons move around the nucleus in certain paths, or energy levels.
Electrons surround the nucleus of an atom. The classical model shows them circling but in fact, their position and path is more complicated. The nucleus is made up of protons and neutrons. Protein is a molecule, not a component of atoms.