why Math matters in the world? You can discuss greenhouse effects, technology, p
ID: 299844 • Letter: W
Question
why Math matters in the world? You can discuss greenhouse effects, technology, possible earth science topics(like sunset topics, orbiting the earth), sports(basketball, baseball, etc), weather, business models, traffic, and so on.Provide reference for your topic...provide the article and/or book where you found the information. Please cite your source appropriately
why Math matters in the world? You can discuss greenhouse effects, technology, possible earth science topics(like sunset topics, orbiting the earth), sports(basketball, baseball, etc), weather, business models, traffic, and so on.
Provide reference for your topic...provide the article and/or book where you found the information. Please cite your source appropriately
why Math matters in the world? You can discuss greenhouse effects, technology, possible earth science topics(like sunset topics, orbiting the earth), sports(basketball, baseball, etc), weather, business models, traffic, and so on.
Provide reference for your topic...provide the article and/or book where you found the information. Please cite your source appropriately
Explanation / Answer
Mathematics is the key to understanding the complexities of the Earth system. The role of mathematics has been to represent the physical processes occurring naturally. The Earth's unique life-supporting climate exists due to a wide range of processes taking place in the atmosphere, oceans, and land, many of which are being understood with the help of mathematical models.
Some conceptual models are frequently used for studying the budgets of solar and terrestrial radiation, which has enabled us to relate global warming with the phenomenon of the greenhouse effect.
Similarly, the ongoing change in the climate is being studied using complex models which predict the rate and degree up to which the global temperatures can rise in the future. The weather and climate prediction models which are based on Newton's laws of motion employ the methods of calculus. The models use in-situ, instrument-derived observations which are assimilated in the models by means of algebraic techniques in order to reduce errors in forecasts.
Ice ages, the occurrences of which are based on the orbital theory of Milankovitch, have also been studied using algebraic equations which give insights into past changes in global climate.
The most comprehensive models, i.e. Earth system models, extensively use numerical methods to solve the calculus-based equation of motions to simulate highly complicated processes such as El-Nino and its multi-scale interaction with oceans, atmosphere, land, and sea ice.
References:
The Role of Mathematics in Understanding the Earth's Climate - Andrew Roberts, Cornell University
Mathematics and Climate - Feature Column, Monthly essays on mathematical topics, American Mathematical Society
Mathematics and Awareness - 1992 National Mathematics Awareness Week
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