Nature and man work together to create smog.
Man puts hydrocarbons and NOx into the air from engines and other sources.
Nature holds the air in one location through temperature inversions or by geologic formations like mountains and bombards the mixture with UV radiation to initiate the formation of ozone and nasty organic compounds.
No, smog is not good for plants. It can block sunlight, prevent photosynthesis, and damage plant tissues. Additionally, pollutants in smog can be absorbed by plants, affecting their growth and development.
The dirty haze that forms when pollution combines with moisture in the air is known as smog. Smog is a harmful mixture of pollutants, such as ground-level ozone and fine particulate matter, that can have negative impacts on human health and the environment.
Smog appears as a thick haze or fog that is a mixture of smoke and fog, hence the name "smog." It often has a yellowish or gray color and can make the air appear murky or dirty. Smog can also reduce visibility and create a distinctive smell.
smoggiest or smog! smog is a mixture of smoke and fog!! and pollution!
The London type of smog (smog "Classic" as opposed to photochemical smog as is popular in other major cities) is the result of coal smoke (particulate matter from incomplete combustion and sulfur dioxide) and fog, The resultant heavy acidic mixture of smoke an dfog an create a number of problems related to acidic precipitation and health problems such as asthma.
Water vapor is not typically involved in the chemical reaction that produces smog. Smog is primarily formed by the interaction of sunlight with pollutants such as nitrogen oxides and volatile organic compounds. Water vapor can play a role in the formation of secondary pollutants within smog, but it is not a primary component of the initial chemical reactions.
Classical smog has a reducing nature due to abundance of Sulfur dioxide,whereas Photochemical smog is oxidising die to high concentrations of ozone and other oxidants.
No, smog is not good for plants. It can block sunlight, prevent photosynthesis, and damage plant tissues. Additionally, pollutants in smog can be absorbed by plants, affecting their growth and development.
In the formation of photochemical smog, highly reactive chemical species like nitrogen oxides (NOx) and volatile organic compounds (VOCs) play a crucial role. When these species react in the presence of sunlight, they form ground-level ozone and other harmful pollutants that contribute to the formation of smog.
Yes, NOx gases are considered greenhouse gases. They contribute to global warming by trapping heat in the Earth's atmosphere. Additionally, they play a role in the formation of smog and acid rain.
Reducing smog is the combination of smoke and fog, therefore, it contains high content of sulfur dioxide which is chemically reducing in nature and is known as reducing smog. The main cause of reducing smog is combustion of coal. photochemical smog consist of higher concentration of oxidants like ozone and is also termed as oxidation smog, it is a yellowish, brownish grey haze which is formed in the presence of water droplets and chemical reaction of pollutants in the air. I hope that all who reads this understand this passage fully, and will make sense out of it. well thanks! name is Trev.
Fossil fuel combustion releases pollutants like nitrogen oxides and volatile organic compounds, which in sunlight can react to form ground-level ozone and smog. This type of energy production, particularly from vehicles and power plants, plays a significant role in smog formation.
Smog abatement means reducing the amount or intensity of smog.
pumps smog
Smog abatement means reducing the amount or intensity of smog.
Yes, there are two main types of smog: "photochemical smog" and "sulfurous smog." Photochemical smog forms in areas with a high concentration of automobile emissions, sunlight, and warm temperatures, while sulfurous smog is caused by the burning of coal and oil, emitting sulfur dioxide into the atmosphere.
Photochemical smog is a type of smog made when hydrocarbons and nitrogen oxides mix with sunlight.