carbon fixation
Inorganic carbon dioxide is transformed into organic carbon during the process of photosynthesis.
Inorganic carbon is converted into organic compounds through a process called photosynthesis. During photosynthesis, plants and other photosynthetic organisms use sunlight to convert carbon dioxide (inorganic carbon) from the air into organic compounds, such as sugars and carbohydrates. This process involves the absorption of sunlight by chlorophyll, a pigment in plant cells, which powers the conversion of carbon dioxide and water into organic molecules through a series of chemical reactions.
Organisms that can exist with light as an energy source and inorganic carbon include certain types of bacteria and algae. These organisms are typically photosynthetic and are capable of using light energy to convert inorganic carbon (such as carbon dioxide) into organic compounds for growth and development. This process is known as photosynthesis.
Plants primarily take up inorganic minerals from the soil, which are more readily available for uptake. Organic minerals from compost need to be broken down by soil organisms into inorganic forms before plants can effectively use them. This breakdown process is essential for making the nutrients accessible to plants.
Testing for chloride in organic compounds is more difficult because organic compounds can contain multiple functional groups and other elements that may interfere with traditional chloride tests. Additionally, the amount of chloride in organic compounds can be lower, making it harder to detect. In contrast, inorganic compounds like HCl contain only chloride ions, simplifying the testing process.
Inorganic carbon dioxide is transformed into organic carbon during the process of photosynthesis.
Inorganic carbon is converted into organic compounds through a process called photosynthesis. During photosynthesis, plants and other photosynthetic organisms use sunlight to convert carbon dioxide (inorganic carbon) from the air into organic compounds, such as sugars and carbohydrates. This process involves the absorption of sunlight by chlorophyll, a pigment in plant cells, which powers the conversion of carbon dioxide and water into organic molecules through a series of chemical reactions.
Plants use a process called photosynthesis to convert inorganic molecules (such as carbon dioxide and water) into organic molecules (such as glucose). During photosynthesis, plants use sunlight as an energy source to combine carbon dioxide and water to produce glucose and oxygen. This process allows plants to create their own food and is crucial for their growth and survival.
Organic molecules are constructed from inorganic raw materials through processes such as photosynthesis, where plants convert carbon dioxide and water into glucose using energy from the sun. This transformation of inorganic compounds into organic molecules is essential for sustaining life on Earth and is a fundamental process in the carbon cycle.
Inorganic if you use the definition organic contains carbon and hydrogen. Organic if your definition is simply contains carbon. There is no clear and agreed definition of the distinction between organic and inorganic. Historically chemists believed an "organic compound" required a life process to produce it.
No biological or chemical process can accomplish that. Nuclear processes could, but I suspect you're using "inorganic" incorrectly, and it's impossible to guess what you really mean.
Chemoautotrophs obtain organic nutrients by utilizing inorganic compounds, such as sulfur, nitrogen, or iron, as energy sources and carbon dioxide as a carbon source. They can perform chemosynthesis, which is a process that allows them to convert these inorganic compounds into organic molecules, enabling them to sustain their growth and metabolism.
You think probable to photosynthesis.
photosynthesis
An example of carbon moving from an inorganic compound to an organic compound in the carbon cycle is through the process of photosynthesis. During photosynthesis, plants take in carbon dioxide (an inorganic compound) from the atmosphere and convert it into glucose (an organic compound) through a series of chemical reactions using sunlight as an energy source.
Processes are considered inorganic when they do not involve living organisms or organic compounds as essential components. Inorganic processes often rely on non-living materials such as minerals, gases, or metals, and typically do not involve biological or biochemical reactions. Examples include chemical reactions like precipitation, crystallization, or combustion.
Photosynthesis is the process in which plants and some other organisms use sunlight to convert carbon dioxide and water into organic compounds like glucose. This process produces oxygen as a byproduct and is essential for the survival of most living organisms.