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Much like a covalent bond, the outer electrons are shared between the two atoms. HOWEVER, instead of simply sharing with the immediate neighbor, the valence electrons are shared through out the entire molecule. This allows metals to conduct electricity and to have other properties of metals, like their luster.
Because the structure is intermediate between water and hydrocarbon. Chemical reactivity is determined by structure. It does what it does because of what it is, it is "kinda like" water it "acts somewhat like water ", it is somewhat like a hydrocarbon it acts like or chemically reacts somewhat like a hydrocarbon.
When atoms combine interactions occur between their electrons. In most cases they will share or give electrons to the other atoms.
The properties of metals are determined by their structure. Metals usually have the atoms arranged closely together in a compact form. It is this compactness that gives metals the different qualities such as strength, i.e. the atoms are bonded together very strongly. Weak bonds would make for weak structures. Basically, all metals have a compact arrangement of atoms, ensuring there is minimal space between them. While the strong bonding explains the strength that metals possess, how does one explain the other properties of metals, such as malleability, ductility, conductivity, etc? The fact that metals have these properties suggest a delocalized nature of bonding. The delocalized nature, complemented by the strong bonding is what gives metals their various properties. Basically, bonding in metals happen between atoms of low electronegativity, which means that there is not too strong an attraction between the valence electrons of the metal atom. The valence electrons are the outermost electrons among all in the atom, and since these have low attractively, they can be shared with the other atoms around them, thereby strengthening the bonds between the atoms themselves. Metallic bonding differs from other kinds of bonding in this respect - the valence electrons can be shared and are therefore considered free-form
In a covalent bond the electrons are shared between atoms.
These are the chemical properties.
Atomic nitrogen has 5 valence electrons and 4 valence orbitals (2s, 2px, 2py, and 2pz). In the Lewis structure there is a triple bond between the nitrogen atoms and non-bonding pair of electrons on each. This consist with the physical properties of N2.
The thing would be the whole, the properties would be determined by what the thing is made up of and how they interact.
Much like a covalent bond, the outer electrons are shared between the two atoms. HOWEVER, instead of simply sharing with the immediate neighbor, the valence electrons are shared through out the entire molecule. This allows metals to conduct electricity and to have other properties of metals, like their luster.
Because the structure is intermediate between water and hydrocarbon. Chemical reactivity is determined by structure. It does what it does because of what it is, it is "kinda like" water it "acts somewhat like water ", it is somewhat like a hydrocarbon it acts like or chemically reacts somewhat like a hydrocarbon.
If a bond between atoms is covalent, then electrons are shared between them. If the bond is polar, that means the electrons are not shared equally (related to electronegativity).
Atomic structure is predominantly determined by the Coulomb force. The Coulomb force, i.e. force between charges is inversely proportional to distance, is the force of electrostatics. The Coulomb force is the force of attraction between the nucleus and the electrons and it is the force of repulsion between the electrons. Quantum mechanics is the theory which uses this force law in determining electronic structure of atoms and molecules. If one wants to get picky and look for very small influences on atomic structure that are not due to the Coulomb force, then one has to investigate the subject of special relativity and some very weak nuclear interactions.
When atoms combine interactions occur between their electrons. In most cases they will share or give electrons to the other atoms.
If you're referring to the entire structure that includes the atoms and not just the shared electrons, then it is a molecule.If simply referring to the bond between atoms, then it is a covalent bond.
A doping essentially done for change in the properties of materials without change in their crystal structure. In an alloy the structure and properties of the developed alloy may be very different from the parent materials.
Metals share properties such as: malleability, conductivity, strength and hardness. The reason properties of metals are different is because of metallic bonding. metals are made up of positively charged metal ions in a sea of delocalised electrons. This gives them the properties listed above. Ionic and molecular compounds are bonded in different ways. e.d ionic compounds are bonded in a rigid structure so it is brittle and non conductive
The attraction-to-repulsion stability that forms between atoms when they share electrons is known as covalent bonding. In other words, a covalent bond is as follows : a bond sharing electrons between atoms. The protons and electrons keep the elements held together by sharing their electrons between atoms to ensure stability.