It can form four covalent bonds.
(3) Carbon dioxide was removed by photosynthesis.
In glycolysis, one 6-carbon glucose molecule is converted into two 3-carbon pyruvate molecules. If no oxygen is present then each of those two pyruvate molecules will be converted into 3-carbon lactate (lactic acid).
Electrons (with accompanying protons) are added to CO2 during photosynthesis.Electrons (with accompanying protons) are removed from CO2 during photosynthesis and added to water molecules to form sugar.Hydrogen is added to CO2 during photosynthesis.Oxygen is removed from CO2 during photosynthesis.
organic molecules
CO2 is a chemist's way of writing carbon dioxide. The "6" means there are six molecules of carbon dioxide.In biology we often see 6CO2 on the left side of an equation for photosynthesis, where six carbon dioxide molecules combine with six molecules of water to form glucose and six molecules of oxygen. We also see 6CO2 on the right-hand side of an equation for aerobic respiration, in which a molecule of glucose reacts with six molecules of oxygen, forming six molecules each of carbon dioxide and water.
Carbon is the element present in all organic molecules. This is due to carbon's unique ability to form stable bonds with itself and other elements, allowing for the diverse range of structures and functions seen in organic compounds.
Carbon and Hydrogen
12 molecules of carbon 24 of hydrogen 12 of oxygen
Four carbon molecules are present when carbon atoms have formed covalent bonds with each other to create a stable molecule, such as in the case of butane (C4H10). Each carbon atom can form up to four covalent bonds with other atoms, resulting in the formation of carbon molecules.
Carbon atoms can form four covalent bonds with other atoms, allowing it to create diverse and complex molecular structures. This ability to bond with multiple atoms in a variety of arrangements gives carbon the unique flexibility to form a vast number of different molecules with a wide range of sizes and shapes. Additionally, carbon can form stable bonds with a wide range of other elements, further increasing its versatility in creating different types of compounds.
Molecules made of carbon and hydrogen are various and diffuse. The best description is that they are hydrocarbons and they burn well.
Carbon atoms present in all organic molecules have the ability to form strong covalent bonds with other carbon atoms and different functional groups, which allows for the vast array of complex structures seen in organic compounds. This versatility is due to carbon's ability to form up to four covalent bonds, enabling it to form long chains, branched structures, and rings, giving rise to the diversity of organic molecules.
Fullerenes are complex carbon containing molecules.
2.1 moles Carbon dioxide (6.022 X 1023/1 mole CO2) = 1.3 X 1024 molecules of carbon dioxide =============================
(3) Carbon dioxide was removed by photosynthesis.
Corn, or maize, is a C4 plant. A c4 plant relates to a group of plants that feature 4-carbon molecules present after the first product of carbon fixation.
The 4 elements are Nitrogen, Oxygen, Carbon and Hydrogen.