Ch 9 Carbon Chemistry

Carbon Chemistry-also called Organic Chemistry An organic compound contains carbon and hydrogen, often combined with a few other elements such as oxygen and nitrogen. There are millions of organic compounds—more than 90 percent of all known compounds.

What’s the key element in Carbon Chemistry? Carbon has four valence electrons. A carbon atom can form four single covalent bonds, a double bond and two single bonds, or a triple bond and a single bond. Most of the bonds in organic compounds are carbon- to-carbon bonds or carbon-to-hydrogen bonds.

There are many different ways that carbon can bond and it can take many shapes and forms You’ll see a lot more about this in chemistry class so don’t worry about these too much for now!

So what can we use Carbon Chemistry for? Here in Alaska most of our $ comes from Carbon compounds-that’s right…Fossil Fuels! Three types of fossil fuels are coal, natural gas, and petroleum. Fossil fuels are mixtures of hydrocarbons that formed from the remains of plants or animals.

Coal Giant tree ferns and other plants were buried in swamps. After millions of years of pressure, the plant remains produced a mixture of hydrocarbons. Coal produces more soot than other fossil fuels.

Natural Gas Natural gas formed from the remains of marine organisms. The main component of natural gas is methane. Natural gas also contains ethane, propane, and isomers of butane. Natural gas is used for heating and cooking. Deposits of natural gas are found along with coal and petroleum.

Petroleum Petroleum also formed from marine organisms. Petroleum is pumped from deep beneath Earth’s surface. Petroleum is a complex liquid mixture of hydrocarbons, mainly long-branched alkanes and alkenes.

Burning or Combustion of Fossil Fuels The primary products of the complete combustion of fossil fuels are carbon dioxide and water. C3H8 + 5O2  3CO2 + 4H2O (complete combustion) If there is not enough oxygen available for complete combustion of all the fuel, carbon monoxide is produced. Carbon monoxide is a colorless, odorless gas that is poisonous. It keeps hemoglobin from carrying oxygen to cells. 2C3H8 + 7O2  6CO + 8H2O (incomplete combustion)

Consequences of burning Fossil Fuels Sulfur dioxide and nitrogen oxides released into the atmosphere by the combustion of fossil fuels forms sulfuric acid and nitric acid. These acids damage the natural environment as well as stone structures, metal, and concrete.

Polymers can be classified as natural polymers or synthetic polymers. A polymer is a large molecule that forms when many smaller molecules are linked together by covalent bonds. Polymers can be classified as natural polymers or synthetic polymers. The smaller molecules that join together to form a polymer are monomers. In some polymers, there is only one type of monomer. Other polymers have two or more kinds of monomers.

Reactions that take place in cells follow the same rules as reactions that take place in a research laboratory or classroom. Some reactions go to completion, and some reach an equilibrium point. Many reactions occur in solution, and catalysts are often needed. Energy is transferred, and energy is converted from one form to another.

6H2O + 6CO2 + Energy (light)  C6H12O6 + 6O2 Photosynthesis During photosynthesis, energy from sunlight is converted into chemical energy. The sun is the primary source of energy for most plants and animals. During photosynthesis, plants chemically combine carbon dioxide and water into carbohydrates. When all the reactions are complete, the energy from sunlight has been stored in the covalent bonds of molecules. 6H2O + 6CO2 + Energy (light)  C6H12O6 + 6O2

During cellular respiration, the energy stored in the products of photosynthesis is released. It takes energy to laugh or cry, to heal a bone or a paper cut, or even to sleep. Like photosynthesis, cellular respiration is a complex series of reactions. This equation is a summary of the overall process. C6H12O6 + 6O2  6H2O + 6CO2 + Energy (heat)

Products of cellular respiration are reactants during photosynthesis Products of cellular respiration are reactants during photosynthesis. Cellular respiration and photosynthesis are two parts of the same cycle.

Enzymes and vitamins are compounds that help cells function efficiently at normal body temperature. Enzymes are proteins that act as catalysts for reactions in cells. Without enzymes, cells could not digest food or extract energy from food. Enzymes allow reactions to proceed faster at much lower temperatures than would normally happen. Vitamins are organic compounds that organisms need in small amounts, but cannot produce. A vitamin that dissolves in water, such as vitamin C, gets eliminated from the body and must be replaced daily. A vitamin that dissolves in fats, such as vitamin A, can build up over time in body tissues.