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What is the bohr model of the neon element?
The Bohr model describes atoms as having a nucleus surrounded by electrons in fixed energy levels. For neon, which has 10 electrons, the Bohr model would show two electrons in the first energy level, and eight electrons in the second energy level. The electrons in the outermost energy level determine neon's chemical properties.
How would a bohr model of a neon atom different from the model of nitrogen?
In a Bohr model, a neon atom would have two electron shells, with a total of ten electrons: two in the first shell and eight in the second shell. In contrast, a nitrogen atom would have two electron shells as well, but only a total of seven electrons: two in the first shell and five in the second. This difference in electron configuration results in distinct chemical properties and reactivity for each element, with neon being a noble gas and nitrogen being a reactive non-metal.
Is the electron arrangement in a sodium ion similar to neon or argon?
The electron arrangement in a sodium ion (Na+) is similar to neon, as both have a full outer electron shell. Sodium loses one electron to achieve the stable electron configuration of neon (2,8). Argon has a full outer shell with 8 electrons, making it different from both sodium and neon.
Is the electron arrangement in a sodium ion similar to neon?
Yes, the electron arrangement in a sodium ion (Na+) is similar to neon. Both ions have a stable electron configuration with a full outer energy level (valence shell), making them inert and unreactive. Sodium loses one electron to achieve the same electron configuration as neon.
What did Bohr assume about motion of electrons?
Bohr proposed that an electron is found only in specific circular paths, or orbits, around the nucleus.
What is the bohr model of the neon element?
The Bohr model describes atoms as having a nucleus surrounded by electrons in fixed energy levels. For neon, which has 10 electrons, the Bohr model would show two electrons in the first energy level, and eight electrons in the second energy level. The electrons in the outermost energy level determine neon's chemical properties.
How would a bohr model of a neon atom different from the model of nitrogen?
In a Bohr model, a neon atom would have two electron shells, with a total of ten electrons: two in the first shell and eight in the second shell. In contrast, a nitrogen atom would have two electron shells as well, but only a total of seven electrons: two in the first shell and five in the second. This difference in electron configuration results in distinct chemical properties and reactivity for each element, with neon being a noble gas and nitrogen being a reactive non-metal.
What did BOHR assume about the motion of the electron?
Bohr proposed that an electron is found only in specific circular paths, or orbits, around the nucleus.
What did Nials Bohr compare the electron's movement to?
Planets.
What determines the amount of energy an electron?
The bohr diagram does
Is the electron arrangement in a sodium ion similar to neon or argon?
The electron arrangement in a sodium ion (Na+) is similar to neon, as both have a full outer electron shell. Sodium loses one electron to achieve the stable electron configuration of neon (2,8). Argon has a full outer shell with 8 electrons, making it different from both sodium and neon.
What is neon if you add an electron?
Sodium would most like be the element with one more electron over neon.
What doe chlorine have to achieve the same electron arrangement as neon?
Chlorine needs to gain one electron to achieve the same electron arrangement as neon, which has a stable octet (eight valence electrons). By gaining one electron, chlorine will have a full outer shell with eight electrons, resembling the electron arrangement of neon.
Which scientist came up with the electron cloud?
Bohr-Rutherford
In the Bohr model of the atom an electron in an orbit has a fixed .?
energy
How many electron can the energy level Bohr model?
21
What does potassium have to do to achieve the same electron arrangement as neon?
To achieve the same electron arrangement as neon, potassium would need to lose one electron, since neon has a full valence shell with 8 electrons. This would leave potassium with a stable electron configuration similar to neon.
