On Bohr's model of the atom, electrons move in circular orbits around the nucleus. These orbits have specific energy levels, and electrons can transition between these orbits by either absorbing or emitting energy in the form of photons. The orbits were quantized, meaning that only certain orbits were allowed for the electrons to move in.
Niels Bohr proposed the model of the atom where electrons move around a central nucleus in fixed orbits. This model helped explain the stability of the atom and the discrete energy levels of electrons.
The sea of electrons model is a concept in chemistry that describes the behavior of electrons in metallic bonds. In this model, metal atoms are considered as positive nuclei surrounded by a "sea" of mobile delocalized electrons. These electrons are free to move throughout the metal lattice, giving metals their characteristic properties such as high electrical conductivity and malleability.
first the positive and negative charges are separated on the models and technically speaking, niels bohrs is more advanced and more accurate. Bohr's atomic model was based on quantisation of energy and angular momentum of the electron whereas Rutherford does not give an idea of permitted orbits.
In this model, the electrons move or orbit around the protons that are at the center of the atom. Electrons move around the nucleus, which contains the proton, in orbits that have a definite size and energy.
The Rutherford model proposed that atoms have a dense nucleus surrounded by orbiting electrons. The Bohr model improved upon this by suggesting that electrons orbit the nucleus in specific energy levels or shells. The cloud model combines aspects of both, recognizing that electrons do not move in fixed orbits but exist in regions of probability called electron clouds around the nucleus.
Scientists determined that electrons do not orbit the nucleus like planets. Instead, electrons can be anywhere in a cloud like region around the nucleus
Neil Bohrs atomic model is simply called Bohrs model. It states that electrons have a certain amount of energy, so they must follow certain orbits. This is different from the modern atomic model.
the planetary model
atoms
Electrons absorb energy to make electrons move from an lower energy level to a higher energy level. This energy is released as some form of e-m radiation when the electron moves from the higher level to a lower energy level.
The Bohr model!
cleveland calvilers
Niels Bohr introduced the notion of electronic orbits.
In this model, the electrons move or orbit around the protons that are at the center of the atom. Electrons move around the nucleus, which contains the proton, in orbits that have a definite size and energy.
In Bohr's model, electrons in an oxygen atom occupy specific quantized energy levels called shells. Oxygen has two electrons in its innermost shell (K shell) and six electrons in its second shell (L shell). These electrons are arranged in a way that follows the principle of filling the lowest energy levels first before moving to higher ones.
From your question, In Bohr's model of the atom is energy give off or absorbed when electrons give offlight. From the word "off" i think the answer is too obvious, it gives off energy. And that is photon. The particle given off because of excess of electrons. Just get my point.
The Bohr model of the atom, the theory that electrons travel in discrete orbits around the atom's nucleus.The shell model of the atom, where the chemical properties of an element are determined by the electrons in the outermost orbit.The liquid drop model of the atomic nucleus.Identified the isotope of uranium that was responsible for slow-neutron fissionThis answers came from wikipedia