Carbon can form complex molecules because of its ability to form many bonds. Carbon in a neutral species has four single bonds, two double bonds, one triple and one single bond, or one double and two single bonds. Due to this extensive boding, carbon can form large molecules and even chains tens of thousands of atoms long (polymers).
Carbon is a nonmetal and it a solid.
add It has three common forms, carbon as in charcoal, carbon as in graphite, and carbon as in diamond. Most useful.
The ability of carbon atoms to form four covalent bonds, which can be single bonds, double bonds, or triple bonds, enables it to form complex structures.
yes
Carbon is non metal as it does not have any metallic properties.
Silicon (like carbon) can form covalent bonds, it forms a giant molecule with the diamond structure. Silicon dioxide is also a giant structure with polar covalent bonds. Silica reacts with basic oxides to form silicates- and these are generally giant structures, polar covalent bonds again, that form a very large proportion of the minerals in the earths crust.
As unique and interesting as carbon is in its pure form, the real magic of carbon comes from its ability to serve as connecting block in a chemical Mechano Set that we refer to as "Organic Chemisty".As the name implies, Organic Chemistry is the chemistry of life. But it is also the chemistry required to produce fuels, solvents, plastics, dies, pharmaceuticals and much more.One of the properties that makes Carbon unique is its ability to create four covalent bonds allowing it to link to itself in order to create carbon chains of various lengths and configurations, or to connect to non-carbon atoms in order to form compounds with unique and specialized chemical properties.Hydrogen plays a special role in carbon chemistry as an "end adapter" ... Wherever a Carbon atom connects to a hydrogen atom the carbon chain ends. This special relationship between carbon and hydrogen is so important that it leads to study of a class of chemicals knowns as "Hydrocarbons" which consist of combinations of only Hydrogen and Carbon atoms.
yes plastic is a form of carbohydrates.
Catenation and tetravalency are the properties. Because of this, carbon forms long complex structure.
Carbon has the ability to make 4 bonds, which allow it to form long chains.
Carbon has the ability to make 4 bonds, which allow it to form long chains.
one carbon atom can bond to another which gives carbon the ability to form chains that are almost unlimited in length
That is because Carbon Atoms are formed in different ways!Depending on the arrangement of the carbon atoms, they form different things. For example, carbon can form: Diamond, graphite and coal. They are all made from carbon, but have different arrangement of carbon atoms.
carbon-based molecules have 3 fundamental structures- straight chains, branched chains, and rings. In many carbon-based molecules, small molecules are subunits of an entire molecules. each carbon atom has four unpaired electrons in its outer energy level. therefore carbon atoms can form covalent bonds with up to four other atoms, including other carbon atoms.
Compounds with just hydrogen and carbon are referred to as hydrocarbons.Hydrogen is a non-metal. It is the simplest element in the periodic table.Carbon is a special non-metal, it has a valency of 4 which allows it to form complex structures with not only itself but other elements, carbon is the basis of life.
The physical properties of carbon vary widely with the allotropic form.
The physical properties of carbon vary widely with the allotropic form.
yes
Carbon can form long chains of C-C bonds.
Carbon can form many different structures for a few reasons. One reason is that carbon can form up to four single bonds, two double bonds, or a triple bond and a single bond. This gives versatility in its bonding. Additionally, carbon forms very stable carbon-carbon bonds, which allows for the creation of elaborate structures. Most other elements do not exhibit this stability. Thus, carbon forms the widest variety of structures.