No: A carbon atom has only four valence electrons and therefore can form no more than four covalent bonds.
Nitrogen can form single, double, and triple covalent bonds.
All non-metals in group IV will be able to form 4 covalent bonds with other elements. They need 4 more electrons to form the octet structure in their valence shell. Hence, they can form 4 single covalent bonds to constitute the covalent structure. On the other hand, elements in group III, such as boron, can also make 1 double bond and 3 single bonds to share 5 electrons to achieve octet structure.
Carbon is a metalloid ie element having properties neither as a pure metal nor as a pure non metal. Ionic or electrovalent bonds are formed by elements with valency less than 3 or 5-7. So carbon forms covalent bonds satisfying its need for 4 more electrons. As an example take a molecule of methane that is CH4. C has electronic configuration :-2 4 ,so to complete its octet it needs 4 electrons more. This is achieved by sharing 4 electrons of hydrogen by overlapping with its orbitals. This sharing of valence pair of electrons results in the formation of a covalent bond. Under certain circumstances but rarely, carbon will form ionic bonds as a carbide. CaC 2 exists as does Al4C3
Nitrogen has 5 valence electrons in its outer shell, but wants to complete its outer shell so it has 8 electrons to become a noble gas (Group 18; see periodic table). Therefore, 3 hydrogen atoms form a covalent bond with one nitrogen atom, sharing their single electron with Nitrogen. Nitrogen can also form bonds with 1 or 2 hydrogen atoms to form ions.
Bonds that add up to 8 making a full valence electron shell. 1+7 2+6 3+5 4+4 5+3 6+2 &+1
It has 5 valence electrons and can easily form 5 covalent bonds.
Covalent bonds form between non-metal molecules. Covalent bonds come in 2 kinds: polar and nonpolar. If the two atoms bonding have an electronegativity difference of less than .5, then the bond is usually considered nonpolar covalent. If the difference is greater than .5 but less than 2 the bond is usually considered polar covalent.
Nitrogen can form single, double, and triple covalent bonds.
Carbon has four valence electrons and can form a maximum of four single bonds. CBr5 requires the carbon to form 5 bonds, and this is too energetically unfavourable to occur.
Carbon atoms have 4 valence electrons, so it can form only 4 bonds. CBr5 would require carbon to form 5 bonds. A molecule composed of carbon and bromine atoms would be CBr4, which is carbon tetrabromide.
5, one for each electron in the outer shell
A molecule of ethene contains 6 covalent bonds, namely 5 sigma bonds and a pi bond.
Nitrogen can form 3 covalent bonds. Nitrogen has 5 valence electrons. If nitrogen is to remain neutral complete the following equation number of valence = number of non-bonding electrons + (1/2) bonded electrons 5 = 2 + (1/2) 6
All non-metals in group IV will be able to form 4 covalent bonds with other elements. They need 4 more electrons to form the octet structure in their valence shell. Hence, they can form 4 single covalent bonds to constitute the covalent structure. On the other hand, elements in group III, such as boron, can also make 1 double bond and 3 single bonds to share 5 electrons to achieve octet structure.
They will form seven bonds along with all the other elements in that column on the periodic table.
Carbon is a metalloid ie element having properties neither as a pure metal nor as a pure non metal. Ionic or electrovalent bonds are formed by elements with valency less than 3 or 5-7. So carbon forms covalent bonds satisfying its need for 4 more electrons. As an example take a molecule of methane that is CH4. C has electronic configuration :-2 4 ,so to complete its octet it needs 4 electrons more. This is achieved by sharing 4 electrons of hydrogen by overlapping with its orbitals. This sharing of valence pair of electrons results in the formation of a covalent bond. Under certain circumstances but rarely, carbon will form ionic bonds as a carbide. CaC 2 exists as does Al4C3
Well, i think that there are 5 bonds.