Bohr was not the discoverer of a particle.
Bohr formulated new explanation and theories to remove Rutherford defect in Rutherford atomic model thats why Bohr atomic model is better than Rutherford atomic model.
To find the number of neutrons in an atom using a Bohr-Rutherford diagram, first identify the atomic number (Z), which is the number of protons, typically indicated in the diagram. Next, locate the atomic mass number (A), usually provided or deduced from the diagram. The number of neutrons (N) can then be calculated using the formula ( N = A - Z ). This will give you the total count of neutrons in the nucleus.
James Chadwick was a student of Niels Bohr who discovered neutrons in the nucleus in 1932. By conducting experiments with beryllium, Chadwick was able to prove the existence of neutrons as a neutral subatomic particle.
No, Niels Bohr was not J.J. Thomson's student. Niels Bohr was a student of Ernest Rutherford, who was a colleague of J.J. Thomson. Bohr developed his own atomic model, known as the Bohr model, which built upon the work of Thomson and Rutherford.
Bohr was not the discoverer of a particle.
The concept of subatomic particles emerged in the late 19th and early 20th centuries through the research of scientists such as J.J. Thomson, Ernest Rutherford, and Niels Bohr. The discovery of specific subatomic particles like the electron, proton, and neutron can be attributed to a combination of experimental observations and theoretical advancements by multiple scientists over time.
The bohr Rutherford diagram for oxygen has 8 protons and 8 neutrons. There are 2 electrons on the first orbital and six on the second. The bohr Rutherford diagram for oxygen has 8 protons and 8 neutrons. There are 2 electrons on the first orbital and six on the second.
You can find a picture of a Bohr Rutherford diagram for a carbon atom by doing an image search on a search engine like Google or by checking science textbooks or educational websites that cover atomic structure.
protons=9 neutrons=9 electrons=9
A Bohr-Rutherford diagram for a xenon atom would show a nucleus with 54 protons and 77 neutrons in the center, surrounded by four electron shells filled with 2, 8, 18, and 18 electrons respectively. This diagram would depict the electron configuration of xenon as 2-8-18-18-8.
The Bohr diagram was invented by Niels Bohr, a Danish physicist, in 1913. He used this diagram to depict the arrangement of electrons in an atom's energy levels.
Bohr formulated new explanation and theories to remove Rutherford defect in Rutherford atomic model thats why Bohr atomic model is better than Rutherford atomic model.
The Bohr-Rutherford diagram for a silicon atom would show 14 electrons distributed in energy levels around the nucleus. The first energy level would have 2 electrons, the second energy level would have 8 electrons, and the third energy level would have 4 electrons.
Ernest Rutherford
To find the number of neutrons in an atom using a Bohr-Rutherford diagram, first identify the atomic number (Z), which is the number of protons, typically indicated in the diagram. Next, locate the atomic mass number (A), usually provided or deduced from the diagram. The number of neutrons (N) can then be calculated using the formula ( N = A - Z ). This will give you the total count of neutrons in the nucleus.
A Bohr-Rutherford diagram of nitrogen would show seven protons and seven neutrons in the nucleus, with two electrons in the first energy level and five electrons in the second energy level surrounding the nucleus. This configuration satisfies the octet rule for nitrogen to achieve stability.