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.
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.
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.
it represents where the atoms, protons, Atomic Mass, atomic number, and electrons where they are located on the nucleus.
Experiments like the photoelectric effect and atomic emission spectra provided evidence that electrons exist in discrete energy levels. These findings challenged the classical model of the atom, leading to Niels Bohr proposing his model in 1913 to explain the quantization of electron energy levels in atoms.
Bohr predicted that electrons would orbit the nucleus much like the planets orbit the sun. This is not quite true, however, as electrons are found in the electron cloud, and do not have a specific position until they are observed.his professor Rutherford knew electrons went on the outer shells. he developed the theory that electrons can move to different levels closer or farther from the nucleus.
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.
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.
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.
Scientists determined that electrons do not orbit the nucleus like planets. Instead, electrons can be anywhere in a cloud like region around the nucleus
it represents where the atoms, protons, Atomic Mass, atomic number, and electrons where they are located on the nucleus.
Experiments like the photoelectric effect and atomic emission spectra provided evidence that electrons exist in discrete energy levels. These findings challenged the classical model of the atom, leading to Niels Bohr proposing his model in 1913 to explain the quantization of electron energy levels in atoms.
Bohr predicted that electrons would orbit the nucleus much like the planets orbit the sun. This is not quite true, however, as electrons are found in the electron cloud, and do not have a specific position until they are observed.his professor Rutherford knew electrons went on the outer shells. he developed the theory that electrons can move to different levels closer or farther from the nucleus.
Bohr's model of the atom, proposed by Niels Bohr in 1913, described the atom as having electrons orbiting the nucleus in specific energy levels or shells. It introduced the concept of quantized energy levels and laid the foundation for understanding atomic structure.
Niels Bohr's theory of the atom proposed that electrons move around the nucleus in specific, fixed paths called orbits or energy levels. These orbits have specific energy levels and are sometimes referred to as shells.
If 2 are attracted to each other then they exchange (lose or gain) electrons so that their outer shell can be full. You should google bohrs theory and diagrams.
The Bohr model!
1. Electrons orbit the nucleus. They are held in orbit by an electrostatic force.2. Electrons can only be in certain, permitted orbits and an electron does not emit radiation when it is in one of these orbits.3. An electron only emits radiation when it "falls" from a higher energy state to a lower state.4. The radii of the allowed orbits are also quantized - each energy state has a specific radius proportional to h/2Ï€.5.Angular momentum of electron will be mvr = nh/2Ï€,n is principle quantum no.