A process in which a dissolved sample is vapourized in atomic spectoscopy this is usually a 2 step process. The analyte is turned into small droplets in a nebulizer which are entrained in a gas flow which i in turn volatilized in a high temperature flame in the case of AAS or volatilized in a gas plasma torch in the case of ICP spectroscopy. A process in which a dissolved sample is vapourized in atomic spectoscopy this is usually a 2 step process. The analyte is turned into small droplets in a nebulizer which are entrained in a gas flow which i in turn volatilized in a high temperature flame in the case of AAS or volatilized in a gas plasma torch in the case of ICP spectroscopy.
Nitrates are returned to the atmosphere through a process called denitrification, where bacteria convert nitrates back into nitrogen gas. This process occurs in oxygen-limited environments such as waterlogged soils or sediments. Nitrates can also be released into the atmosphere through volatilization from fertilizers or animal waste.
Pesticides can contribute to air pollution through volatilization of active ingredients and other chemical components. When pesticides are applied, they can become airborne and drift, potentially impacting air quality, human health, and the environment. Exposure to pesticide residues in the air can lead to respiratory issues and other health problems for both humans and animals.
During decomposition, nitrogen is released from organic matter as ammonia (NH3) through microbial activity. This ammonia can then be converted into nitrites and nitrates by nitrifying bacteria, which can be taken up by plants as a nutrient. Nitrogen in the form of ammonia can also be lost to the atmosphere through volatilization.
Potassium iodide (KI) is added in coulometry titration to help facilitate the generation of iodine (I2) following the reduction of iodate ions (IO3-) in the sample solution. The produced iodine can then be titrated with a standardized thiosulfate solution to determine the amount of substance being analyzed. Additionally, KI acts as a stabilizer for iodine, preventing its premature reaction or volatilization.
High temperatures can lead to the volatilization of ammonium, resulting in its loss from the soil and reduced availability for plants. Conversely, low temperatures can slow down the microbial processes responsible for converting ammonium into forms that are more readily taken up by plants, potentially reducing plant yield. Balancing temperature conditions is key to optimizing ammonium availability and crop yield.
Volatilization is a natural process, that can be duplicated in labs. Also called Vaporization, volatilization is roughly a label for the transformation of substances from a solid or liquid state into gas. Don't quote me. For example, volatilization is a commonly referred to mechanism by which wetlands can filter pollutants out of the environment. Plants have some sort of relationship to these chemicals which allows them to transform them from solid or liquid state into a gaseous state. I searched for scholarly articles on Volatilization, and i couldn't find anything that directly explained the process to me.
Shaahin Sean Cheyene has written: 'Vapor' -- subject(s): Aromatherapy, Inhalation Administration, Methods, Plant Oils, Therapeutic use, Vapors, Volatilization
J. L. Fleming has written: 'A selection guide for volatilization technologies for water treatment' -- subject(s): Organic compounds removal, Purification, Vaporization, Water
Tsuyoshi Ishikawa has written: 'Suppression of boron volatilization from the hydrofluoric acid solution using boron-mannitol complex' -- subject(s): Analysis, Hydrofluoric acid, Silicates, Boron
The process responsible for the distribution of pheromones through the air is called volatilization. Pheromones are released into the air as volatile compounds that can travel through the environment to reach their target receptors in other individuals.
Removal of iron from aluminous material such as bauxite is effected by treatment with a gas mixture comprising sulphur dioxide and carbon monoxide in a first step, followed by chlorination in a second step whereby ferric chloride is produced and removed by volatilization.
Nitrogen in the form of urea or ammonium nitrate should be watered into the soil immediately after application to prevent volatilization losses. Ideally, it should be watered in within 24 hours, as rain may not effectively carry it into the soil.
Nitrates are returned to the atmosphere through a process called denitrification, where bacteria convert nitrates back into nitrogen gas. This process occurs in oxygen-limited environments such as waterlogged soils or sediments. Nitrates can also be released into the atmosphere through volatilization from fertilizers or animal waste.
When exposed to air, camphor will slowly sublimate, meaning it will transition from a solid to a gas without passing through a liquid phase. This process is known as volatilization, and it causes the camphor to gradually evaporate and disperse into the surrounding environment.
Ashok Domalpalli Rao has written: 'Volatilization of coal: gas volume and composition analyses' -- subject(s): Coal gasification
Excess lime can increase soil pH, making nitrogen less available to plants. This is because high pH levels can convert nitrogen into ammonia gas, which can then be lost through volatilization. This can reduce the amount of nitrogen available for plants to take up and use for growth.
Pesticides can contribute to air pollution through volatilization of active ingredients and other chemical components. When pesticides are applied, they can become airborne and drift, potentially impacting air quality, human health, and the environment. Exposure to pesticide residues in the air can lead to respiratory issues and other health problems for both humans and animals.