No. Silicon cannot form long chains or other complex molecules as carbon can because the Si-Si bonds are unstable. The silicon-hydrogen bonds are much weaker as well.
No. Silicon dioxide, also called silica or, in mineral form quartz, contains only silicon and oxygen. By definition, and organic compound contains carbon.
Carbon is versatile because it can form single, double, and triple bonds. It can also form chains, branched chains, and rings. Also, carbon atoms bond fairly readily with other carbon atoms. It's much more energetically favorable for, say, a silicon atom to bond with an oxygen atom than another silicon atom; with carbon, the difference is less, so carbon-carbon bonds are more stable in the presense of oxygen than silicon-silicon bonds are... this is important, given that oxygen is the third most common element in the universe.
valence of 4 bonds and can form a single or double convalent bond
"Covalent bonds link carbon atoms together in long chains that form the skeletal framework for organic molecules. These carbon skeletons may vary in: -Length -Shape -Number and Location of double bonds -Other elements covalently bonded to available sites This variation in carbon skeletons contributes to the complexity and diversity of organic molecules..." This answer is from Yahoo Answers,
Just remember NCHOPS.Which stands for; Nitrogen, Carbon, Hydrogen, Oxygen, Phosphorus, and Sulfur, All organic compounds usually have C,H, and O. Most also have nitrogen, phosphorus, and sulfur.
Bicarbonates,carbonates and organic molecules
carbon
No. Silicon dioxide, also called silica or, in mineral form quartz, contains only silicon and oxygen. By definition, and organic compound contains carbon.
Carbon is a good element for organic molecules because of its incredible versatility, which derives from the arrangement of its valence electrons and the type and energy level of the bonds they form.
It's the glue that holds everything together. Carbon can form long chains, which atoms can attach to the sides of, thus creating hugely complex molecules.
Theoretically yes, but it is quite implausible. Silicon forms less stable structures than carbon and silicon compounds would be solid at standard conditions and would, therefore, be quite hard to use by organisms.
The properties of carbon make it the backbone of the organic molecules which form living matter. Carbon is a such a versatile element because it can form four covalent bonds. Carbon skeletons can vary in length, branching, and ring structure.
yes Organic Molecules form naturally
Carbon is versatile because it can form single, double, and triple bonds. It can also form chains, branched chains, and rings. Also, carbon atoms bond fairly readily with other carbon atoms. It's much more energetically favorable for, say, a silicon atom to bond with an oxygen atom than another silicon atom; with carbon, the difference is less, so carbon-carbon bonds are more stable in the presense of oxygen than silicon-silicon bonds are... this is important, given that oxygen is the third most common element in the universe.
With carbon, molecular chains, known as Linear Polymeric Molecules (LPM), can form.
Carbon because Carbon is a common element contains in organic things. It contains a lot of atoms to form large molecules with Hydrogen and other elements as well...
An organic form is composed of carbon.