photosynthesis turns carbon dioxide into longer 6 carbon chains (glucose) which may then be further elongated into starches for storage.
The formula of urea is CO(NH2)2. It is organic because the formula contains a carbon atom. The only compounds that contain carbon and are not considered organic are carbon dioxide and carbonates such as calcium carbonate.
A polar organic compound is a molecule containing carbon and other elements such as oxygen, nitrogen, or sulfur, which exhibit an uneven distribution of electron density due to differences in electronegativity. This results in a separation of partial positive and negative charges, making the molecule polar. Polar organic compounds are typically soluble in polar solvents and exhibit properties such as hydrogen bonding.
Organic compounds are unique because they contain carbon, which has the ability to form diverse and complex structures due to its tetravalent nature. This allows organic molecules to have a wide range of functions and properties, making them essential for life processes and the foundation of many natural and synthetic materials.
More than 90 percent of known compounds are organic because organic chemistry focuses on the study of carbon-containing compounds. Carbon has unique bonding properties that allow it to form diverse and complex molecules, making organic compounds highly abundant and diverse in nature. Additionally, living organisms primarily consist of organic compounds, further contributing to the predominance of organic chemistry in compound research.
Organic compounds are highly combustible because they contain carbon and hydrogen atoms, which have high energy bonds that can release a large amount of energy when broken during combustion. Additionally, organic compounds often have low ignition temperatures, making them more prone to catching fire.
Carbon is fundamental to all organic compounds. Organic compounds contain one or more C-H or C-C bonds. All organic compounds contain carbon, but not all carbon-containing compounds are organic, such as carbon dioxide.Carbon is the foundation for making organic compounds. Every organic contains carbon. Hydrogen is also present in every organic compound.
Organic compounds are actually compounds containing carbon covalently bonded with a hydrogen. You can say carbon is the main thing here. Compounds of carbon [except oxides, carbonates, bicarbonates] are termed as organic. Water does not contain a carbon atom. So it is inorganic. Carbon dioxide is considered by chemists as inorganic, along with carbon monoxide, carbonates and bicarbonates. Nature has not distinguished compounds into inorganic and organic compounds that clearly. These compounds of carbon are just assumed to be inorganic. Also there is that one thing about carbon being covalently bonded with hydrogen in organic compounds. Due to that criteria carbon dioxide is considered inorganic. But actually there is no clear reason.
Higher than what? Some organic compounds (e.g. propane, butane) have very very low boiling points making them gases at room temperature. Certain inorganic compounds (e.g. tungsten carbide) have boiling points so high that before those compounds boiled all organic compounds would not only have boiled but would have decomposed into their elements or very simple inorganic carbon compounds (e.g. carbon monoxide, carbon dioxide).
The formula of urea is CO(NH2)2. It is organic because the formula contains a carbon atom. The only compounds that contain carbon and are not considered organic are carbon dioxide and carbonates such as calcium carbonate.
Compounds built around the element carbon are called organic compounds. Carbon is unique in its ability to form long chains and complex structures, making it the basis for life on Earth. Examples of organic compounds include carbohydrates, proteins, lipids, and nucleic acids.
Decomposers break down organic matter such as dead plants and animals into simpler compounds. These compounds then mix with mineral particles in the soil, helping to enrich and fertilize the soil. Decomposers also release nutrients like nitrogen and phosphorus into the soil, making them available for plant uptake.
Nitrogen, photosynthesis's, carbon dioxide
A polar organic compound is a molecule containing carbon and other elements such as oxygen, nitrogen, or sulfur, which exhibit an uneven distribution of electron density due to differences in electronegativity. This results in a separation of partial positive and negative charges, making the molecule polar. Polar organic compounds are typically soluble in polar solvents and exhibit properties such as hydrogen bonding.
Organic compounds are unique because they contain carbon, which has the ability to form diverse and complex structures due to its tetravalent nature. This allows organic molecules to have a wide range of functions and properties, making them essential for life processes and the foundation of many natural and synthetic materials.
Archaea can be either heterotrophic or autotrophic. Some archaea are capable of obtaining carbon and energy by consuming organic compounds from their environment, making them heterotrophic. Others can produce their own organic compounds from inorganic sources, making them autotrophic.
More than 90 percent of known compounds are organic because organic chemistry focuses on the study of carbon-containing compounds. Carbon has unique bonding properties that allow it to form diverse and complex molecules, making organic compounds highly abundant and diverse in nature. Additionally, living organisms primarily consist of organic compounds, further contributing to the predominance of organic chemistry in compound research.
A wooden chair is considered an organic object because it is made from natural materials derived from living organisms, specifically trees. Wood is composed of organic compounds such as cellulose and lignin, making it organic in nature.