Bohr's model views the atom as a miniature solar system, with electrons representing planets and the nucleus representing the sun. According to this model, the position of each electron can be accurately determined at any point in time. In the modern model, the orbiting electrons are like the blades of a rotating fan, which move so quickly that their position at any given time cannot be determined with certainty.
That depends on what you want to call the 'beginning' of the moon's orbit.-- New Moon and Full Moon are opposite each other, 1/2 orbit apart.-- First Quarter and Last Quarter are opposite each other, 1/2 orbit apart.-- Each day of Waxing Crescent, and the Waning Gibbous that combines with itto form a complete disk, are opposite each other, 1/2 orbit apart.-- Each day of Waning Crescent, and the Waxing Gibbous that combines with itto form a complete disk, are opposite each other, 1/2 orbit apart.Hey! I just realized that every possible shape of the moon, and the shapethat combines with it to form a complete disk, are opposite each other,1/2 orbit apart.
The number associated with positive charges in a nucleus of each atom determine the atomic number in a Bohr diagram.
no because stars can orbit each other
In a sense Niels Bohr did by introducing different orbits in which electrons spin around the nucleus. Bohr argued that each electron has a certain fixed amount of energy, which corresponds to its fixed orbit. Therefore, when an electron absorbs energy, it jumps to the next higher orbit rather than moving continuously between orbits. The characteristic of electrons having fixed energy quantities (quanta) is also known as the quantum theory of the atom.
You are PROBABLY referring to the "Bohr Model" of the atom.
That depends on what you want to call the 'beginning' of the moon's orbit.-- New Moon and Full Moon are opposite each other, 1/2 orbit apart.-- First Quarter and Last Quarter are opposite each other, 1/2 orbit apart.-- Each day of Waxing Crescent, and the Waning Gibbous that combines with itto form a complete disk, are opposite each other, 1/2 orbit apart.-- Each day of Waning Crescent, and the Waxing Gibbous that combines with itto form a complete disk, are opposite each other, 1/2 orbit apart.Hey! I just realized that every possible shape of the moon, and the shapethat combines with it to form a complete disk, are opposite each other,1/2 orbit apart.
I assume you mean Bohr, as in Neils Bohr, the physicist and chemist famous for the Bohr model of the atom.Imagine a "C" inside of a square. If one were to put one "dot" on each side of the hypothetical box, you would have a bohr model Carbon atom.
Bohr's model views the atom as a miniature solar system, with electrons representing planets and the nucleus representing the sun. According to this model, the position of each electron can be accurately determined at any point in time. In the modern model, the orbiting electrons are like the blades of a rotating fan, which move so quickly that their position at any given time cannot be determined with certainty.
In the classical physics of Faraday, Ampere, Maxwell, and those guys, a moving electrical charge always radiates energy away and eventually runs out of gas. But in the Bohr model of the atom, which resembles a miniature solar system, each electron and its negative charge occupies a stable orbit without losing energy.
That depends on what you want to call the 'beginning' of the moon's orbit.-- New Moon and Full Moon are opposite each other, 1/2 orbit apart.-- First Quarter and Last Quarter are opposite each other, 1/2 orbit apart.-- Each day of Waxing Crescent, and the Waning Gibbous that combines with itto form a complete disk, are opposite each other, 1/2 orbit apart.-- Each day of Waning Crescent, and the Waxing Gibbous that combines with itto form a complete disk, are opposite each other, 1/2 orbit apart.Hey! I just realized that every possible shape of the moon, and the shapethat combines with it to form a complete disk, are opposite each other,1/2 orbit apart.
The number associated with positive charges in a nucleus of each atom determine the atomic number in a Bohr diagram.
Bohr theory was introduced using hydrogen atom, it's not applicable to each and every atom, even for the other isotopes of hydrogen.
no because stars can orbit each other
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In a sense Niels Bohr did by introducing different orbits in which electrons spin around the nucleus. Bohr argued that each electron has a certain fixed amount of energy, which corresponds to its fixed orbit. Therefore, when an electron absorbs energy, it jumps to the next higher orbit rather than moving continuously between orbits. The characteristic of electrons having fixed energy quantities (quanta) is also known as the quantum theory of the atom.
the max is 2 for the first orbitthe max is 8 for the second orbitthe max is 8 for the thrid orbit too.User:HeleneM5500:06, 4 Sep 2009 (UTC)Electrons follow paths called orbits, shells, or levels. Each shell can hold a specific maximum number of electrons. Each electron possesses a definite amount of energy. The radius of the orbit depends on the amount of energy that electron has & on the attractive force the nucleus has for that electron. Bohr model of the atom (with main energy levels identified by number: 1 --> 7Shell #1 closest to nucleus can hold a maximum of 2 each.Shell #2 next shell outward can hold a maximum of 8 each.Shell #3 next shell outward for elements Z = 1 --> 20, this shell can hold a maximum of 8 e-, for all others a maximum of 18 each.