The Greenhouse Effect involves three main steps: first, solar radiation reaches the Earth, where some is absorbed and warms the surface; second, the Earth emits this energy back into the atmosphere as infrared radiation; and third, greenhouse gases in the atmosphere trap some of this heat, preventing it from escaping into space. Human activities, particularly the burning of fossil fuels and deforestation, increase the concentration of these greenhouse gases, enhancing the natural greenhouse effect. This intensified effect leads to global warming, resulting in climate change, which manifests as rising temperatures, altered weather patterns, and more extreme weather events.
The three primary human activities responsible for the majority of greenhouse gas emissions are burning fossil fuels for energy, deforestation, and industrial processes. Burning fossil fuels, such as coal, oil, and natural gas, for transportation, electricity, and heating releases significant amounts of carbon dioxide (CO2). Deforestation contributes by reducing the number of trees that can absorb CO2, while industrial processes emit various greenhouse gases, including methane and nitrous oxide. Together, these activities significantly contribute to global warming and climate change.
Greenhouse gases must have three atoms, so gases like hydrogen (H2) and Oxygen (O2) are not greenhouse gases.
A greenhouse gas is any gas in our atmosphere that is capable of absorbing heat from incoming or out going radiation. They normally will be gases with three or more molecules. The three most significant green houses gases and the amount they contribute are water vapor (80%), carbon dioxide (6%) and methane (1%). Nature produces 99.7% of all green house gas emissions.
Ozone is itself a greenhouse gas.Water vapor is a greenhouse gas, and it serves to deplete ozone (water vapor blocks one path of ozone production, and provides an additonal decay path).Carbon dioxide is a greenhouse gas that has no effect on ozone.Any gas with three or more atoms per molecule is a greenhouse gas (like CFCs). For the most part, any of these gases in the atmosphere (with the exception of those listed above) are in too small a quantity to have any significant effect on global temperatures, whatever effect they may eventually have on ozone.Another answerThe burning of fossil fuels, which are ancient plants and animals, compressed and heated, is a large contributor to the greenhouse gases. There is a lot of carbon in the fossil fuels, and when they are burned, the carbon is released. The carbon then creates carbon dioxide, which is what creates a lot of greenhouse gases. The greenhouse gases warm our planet, altering ecosystems and life. They also can cause depletion of the ozone layer.
Greenhouse gasses, Solar output changes, Orbital change, Volcanic activity, Plate tectonics.
The Greenhouse Effect involves three main steps: first, solar radiation reaches the Earth, where some is absorbed and warms the surface; second, the Earth emits this energy back into the atmosphere as infrared radiation; and third, greenhouse gases in the atmosphere trap some of this heat, preventing it from escaping into space. Human activities, particularly the burning of fossil fuels and deforestation, increase the concentration of these greenhouse gases, enhancing the natural greenhouse effect. This intensified effect leads to global warming, resulting in climate change, which manifests as rising temperatures, altered weather patterns, and more extreme weather events.
how do gasses create pressure? What are the three characteristics of gasses according to the kinetic theory
The 3 important gasses (there are more) are:-NitrogenOxygenCarbon Dioxide
The 3 important gasses (there are more) are:-NitrogenOxygenCarbon Dioxide
The three major gasses dissloved in ocean water are nitrogen, oxygen and carbon dioxide.
The three primary human activities responsible for the majority of greenhouse gas emissions are burning fossil fuels for energy, deforestation, and industrial processes. Burning fossil fuels, such as coal, oil, and natural gas, for transportation, electricity, and heating releases significant amounts of carbon dioxide (CO2). Deforestation contributes by reducing the number of trees that can absorb CO2, while industrial processes emit various greenhouse gases, including methane and nitrous oxide. Together, these activities significantly contribute to global warming and climate change.
The three main types of gases are inert gases (such as helium and neon), noble gases (such as argon and xenon), and greenhouse gases (such as carbon dioxide and methane). Each type of gas has different properties and roles in the environment.
the earth gets warmer.homes bordering the beaches, because glaciers and ice caps are melting and increasing sea levels.if global warming does not stop (increase of heat from greenhouse gases) the icebergs will melt causing a flooding of many countries.A: In general, more greenhouse gasses means more heat is trapped in the atmosphere, or to be more precise, heat is trapped for a longer average period of time, meaning that, at any given time, there is more heat present in the atmosphere than there would be with less greenhouse gasses, and therefore temperatures are higher. That's the general case, though, and the devil, as they say, is in the details. You see, the heat in question is actually '''infrared radiation''' emitted from the surface (after being absorbed as visible light, for the most part). Greenhouse gasses do not indiscriminantly absorb heat. Each greenhouse gas absorbs only '''certain wavelengths''' of infrared radiation. For a single, given greenhouse gas, at some level of concentration, the gas is '''already''' absorbing all infrared in the wavelegths it can absorb. At that point, additional quantities of that gas will not absorb any more infrared, because there's none left, at least not in those wavelengths. Also, different gasses can have '''overlapping''' absorption wavelengths. For example, over two of the three major bands of wavelengths in which carbon dioxide absorbs infrared, it must '''compete''' with water vapor (by far the most abundant and important greenhouse gas). When this occurs, even if one gas is not present in large enough quantities to absorb all infrared in certain wavelengths, the two gasses, in combination, could still be absorbing all available infrared in those wavelengths.When the CO2 level increases, the atmosphere gets warmer.If you have an increase of greenhouse gases entering the atmosphere,more heat is retained.
solids , gasses , and liquids.
Gasses, liquids and solids.
soil , gasses , liquid