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Development of Bohr model due to atomic emission spectra of some
Development of Bohr model due to atomic emission spectra of some

... philosophical beginnings of Democritus over Dalton’s theorems to Rutherford’s orbit theory, more and more improvements were added to the model. However, all atomic models until this point saw the atom as a particle-alike object. In 1913 Niels Bohr introduced a new approach to the structural composit ...
States of Matter - Part II. The Three Additional States: Plasma, Bose
States of Matter - Part II. The Three Additional States: Plasma, Bose

... and neutral atoms is plasma. However, a collective response to electric and magnetic fields may be observed only when sufficient numbers of charged particles are present. In other words plasma density must be sufficient. On the microscopic scale, plasma contains electrons and ions and, therefore, co ...
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Chemical Bonding and Molecular Structure

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Atomic Structure, Eelectronic Bonding, Periodicity, orbitals

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Atoms and Term Symbols

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Atomic Structure, Eelectronic Bonding, Periodicity, orbitals

Chapter 6 Electronic Structure of Atoms
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Topic 12.1 Electron Configuration

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Spectroscopy of Atoms and Molecules

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23.32 KB - KFUPM Resources v3

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Chapter 6. Electronic Structure of Atoms

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I, I, I, 4- Measurement Unit Conversions- Kilo

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From atoms to the periodic table

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Atom

An atom is the smallest constituent unit of ordinary matter that has the properties of a chemical element. Every solid, liquid, gas, and plasma is made up of neutral or ionized atoms. Atoms are very small; typical sizes are around 100 pm (a ten-billionth of a meter, in the short scale). However, atoms do not have well defined boundaries, and there are different ways to define their size which give different but close values.Atoms are small enough that classical physics give noticeably incorrect results. Through the development of physics, atomic models have incorporated quantum principles to better explain and predict the behavior.Every atom is composed of a nucleus and one or more electrons bound to the nucleus. The nucleus is made of one or more protons and typically a similar number of neutrons (none in hydrogen-1). Protons and neutrons are called nucleons. Over 99.94% of the atom's mass is in the nucleus. The protons have a positive electric charge, the electrons have a negative electric charge, and the neutrons have no electric charge. If the number of protons and electrons are equal, that atom is electrically neutral. If an atom has more or fewer electrons than protons, then it has an overall negative or positive charge, respectively, and it is called an ion.Electrons of an atom are attracted to the protons in an atomic nucleus by this electromagnetic force. The protons and neutrons in the nucleus are attracted to each other by a different force, the nuclear force, which is usually stronger than the electromagnetic force repelling the positively charged protons from one another. Under certain circumstances the repelling electromagnetic force becomes stronger than the nuclear force, and nucleons can be ejected from the nucleus, leaving behind a different element: nuclear decay resulting in nuclear transmutation.The number of protons in the nucleus defines to what chemical element the atom belongs: for example, all copper atoms contain 29 protons. The number of neutrons defines the isotope of the element. The number of electrons influences the magnetic properties of an atom. Atoms can attach to one or more other atoms by chemical bonds to form chemical compounds such as molecules. The ability of atoms to associate and dissociate is responsible for most of the physical changes observed in nature, and is the subject of the discipline of chemistry.Not all the matter of the universe is composed of atoms. Dark matter comprises more of the Universe than matter, and is composed not of atoms, but of particles of a currently unknown type.
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