the lightning creates sulpur dioxide and this then evaporates into the clouds. it dissolves into the water and it effectivley rains acid!
cuz the acid from the lightening blends with the oxygen from the car egine and together they form a strong acid called acid rain
Lightning produces nitrogen oxides, which are pollutants that can contribute to smog and acid rain when they react with other compounds in the atmosphere.
Acid rain.
yes
Natural processes that contribute to acid rain include volcanic eruptions, which release sulfur dioxide and other gases into the atmosphere, and wildfires, which can produce nitrogen oxides and particulates. Additionally, the biological decay of organic matter can release organic acids and contribute to the acidity of precipitation. Lightning strikes also facilitate the conversion of atmospheric nitrogen into nitrogen oxides, which can lead to acid rain formation when combined with water vapor.
No, solar power does not contribute to acid rain. Acid rain is caused by emissions of sulfur dioxide and nitrogen oxides from burning fossil fuels like coal and oil. Solar power generates electricity by converting sunlight into electricity using photovoltaic cells, which does not produce emissions that contribute to acid rain.
Lightning can start wildfires, damage trees, and cause power outages by striking power lines. It can also create nitrogen oxides in the atmosphere, which contribute to air pollution and acid rain. Lightning can also release ozone, which can affect air quality and human health.
mainly sulfur and its oxides.
Yes, smoke from factories can contribute to the formation of acid rain. When sulfur dioxide and nitrogen oxides in the smoke combine with water vapor in the atmosphere, they form sulfuric acid and nitric acid, leading to acid rain. This acid rain can harm ecosystems, damage buildings, and affect water quality.
These gases are sulfur dioxide and nitrogen dioxide.
Sulfur trioxide can react with water in the atmosphere to form sulfuric acid, which can then contribute to acid rain formation. This reaction produces sulfuric acid by combining with water vapor in the atmosphere, creating a corrosive solution that falls to the earth's surface as acid rain.
The oxidation of sulfur in SO2 leads to the formation of sulfuric acid (H2SO4), which can contribute to acid rain when it combines with water in the atmosphere. This acid rain can harm ecosystems, damage buildings and infrastructure, and impact human health.