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it has 28protons and 31 neutrons with 28 electrons and has 5 shells or orbitals. 2 in the first, 8 in the 2nd 3rd and 4th, and 2 in the fifth
In the Bohr Model diagram for Strontium (Sr), there would be two energy levels: the first level would contain 2 electrons and the second level would contain 8 electrons. The nucleus would be in the center with the electrons orbiting in specific shells.
The Bohr diagram for carbon-14 would show two electron shells. The first shell would have two electrons, and the second shell would have six electrons. This reflects the atomic structure of carbon-14, which has 6 protons and 8 neutrons in its nucleus.
The number associated with positive charges in a nucleus of each atom determine the atomic number in a Bohr diagram.
A Bohr diagram for a sulfide ion would consist of ten electrons distributed in three energy levels around the nucleus. The first energy level would have two electrons, the second energy level would have eight electrons, and the third energy level would have none.
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.
it has 28protons and 31 neutrons with 28 electrons and has 5 shells or orbitals. 2 in the first, 8 in the 2nd 3rd and 4th, and 2 in the fifth
In the Bohr Model diagram for Strontium (Sr), there would be two energy levels: the first level would contain 2 electrons and the second level would contain 8 electrons. The nucleus would be in the center with the electrons orbiting in specific shells.
two dots on the first shell closest to the nucleus, eight dots on the second shell and then three dots on the outer shell to total 13 two dots on the first shell closest to the nucleus, eight dots on the second shell and then three dots on the outer shell to total 13
The number associated with positive charges in a nucleus of each atom determine the atomic number in a Bohr diagram.
The Bohr diagram for carbon-14 would show two electron shells. The first shell would have two electrons, and the second shell would have six electrons. This reflects the atomic structure of carbon-14, which has 6 protons and 8 neutrons in its nucleus.
The bohr diagram does
A Bohr diagram for silicon would show a silicon atom with 14 protons and 14 electrons. In the first energy level, there would be 2 electrons, and in the second energy level, there would be 8 electrons. The remaining 4 electrons would be in the third energy level.
A Bohr diagram for a sulfide ion would consist of ten electrons distributed in three energy levels around the nucleus. The first energy level would have two electrons, the second energy level would have eight electrons, and the third energy level would have none.
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.
The man who first suggested orbitals (in their most primitive form) was Neils Bohr - the concept has been improved upon since him however.
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.