Magnesium chloride is ionic compound. Methane is a covalent compound.
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Note: If the electronegativity difference between two atoms forming a bond is more than 1.7 according to Pauling's scale, then ionic bonds are formed and if the the electronegativity difference between two atoms forming a bond is less than 1.7, then covalent bonds are formed.
Yes, magnesium chloride and methane are both covalent substances. Magnesium chloride has a covalent bond between magnesium and chloride ions, while methane has covalent bonds between carbon and hydrogen atoms.
organic: methane, ethane, benzene, toluene inorganic: sodium chloride, dioxygen, magnesium oxide, potassium chloride
Molecules that contain atoms from several elements for a compound. Examples of these compounds include hydrogen, sodium chloride, methane, and magnesium.
A covalent bond because carbon and hydrogen are sharing electrons
Methane is a covalent compound: CH4. Also nitrogen oxide, NO.
there are four covalent bonds between carbon and hydrogen in methane (CH4).
No. Methane is covalent, but it is a gas.
organic: methane, ethane, benzene, toluene inorganic: sodium chloride, dioxygen, magnesium oxide, potassium chloride
It is not KBr
Methane is a covalent compound.
The most common chemical bonds are ionic (as in sodium chloride) or covalent (as in methane). The ionic bond is based on the electrostatic attraction; the covalent bond is based on the sharing of electrons.
Yes methane is pure covalent
Methane is a molecule with covalent bonds. Then again, there are different types of bonds. To be specific, Methane is a tetrahedral molecule with covalent long single bonds.
CH4 (methane) is a covalent compound.
Molecules that contain atoms from several elements for a compound. Examples of these compounds include hydrogen, sodium chloride, methane, and magnesium.
Covalent bonds are between non-metals only. Methane is a hydrocarbon (CH4. Therefore it is COVALENTLY bonded because of the bonds between carbon (non-metal) and hydrogen (non-metal). Ionic compounds only apply to those made of metals and non-metals.
Covalent bonds are the intramolecular forces that hold the hydrogens to the carbon in methane, CH4. The intermolecular forces holding several methane molecules together are London dispersion forces (van der Waals forces).
Yes, CH4 is "methane" A covalent compound is a compound in which the atoms that are bonded share electrons rather than transfer electrons from one to the other. Ammonia and water are also Covalent. http://misterguch.brinkster.net/covalentcompounds.html