Carbon can form 4 covalent bonds as in methane. A covalent bond is formed by sharing of 2 electrons. as in methane 4 electron from carbon forms abond with 4hydrogen atom which donates 4 electron to form 4 covalent bonds
max. 4
They will form a covalent bond, which means they will share electrons to achieve noble gas electron configuration. Carbon and hydrogen combine in many different ways, thanks to carbon's chemical versatility and hydrogen's high reactivity.
Single, double, and triple covalent bonds
Each carbon atom can covalently bond with as many as four other other atoms. Answer is 4.
minimum two atoms are for single covalent bond
Oxygen and oxygen. O=O. Or, say oxygen and carbon, CO. Oxygen and many other nonmetals con form covalent bonds.
They will form a covalent bond, which means they will share electrons to achieve noble gas electron configuration. Carbon and hydrogen combine in many different ways, thanks to carbon's chemical versatility and hydrogen's high reactivity.
Single, double, and triple covalent bonds
Carbon will form four covalent bonds, nitrogen will form three covalent bonds, oxygen will form two covalent bonds, and hydrogen will form one covalent bond. Click on the related link to see a diagram showing the structure of an amino acid.
Each carbon atom can covalently bond with as many as four other other atoms. Answer is 4.
There are many. Oxygen and Nitrogen are examples.
Under normal circumstances, it should only form one covalent bond.
Carbon atoms do not gain electrons to form a covalent bond. Carbon atoms form four covalent bonds by sharing its four valence electrons with the valence electrons of other atoms. These can be single bonds, in which one pair of electrons is shared; double bonds, in which two pairs of electrons are shared; or triple bonds, in which three electrons are shared; or a combination of these.
4
minimum two atoms are for single covalent bond
Carbon can bond with itself, and many other elements.
Four. Each electron can join with an electron from another atom to form a strong covalent bond.
Oxygen and oxygen. O=O. Or, say oxygen and carbon, CO. Oxygen and many other nonmetals con form covalent bonds.