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Womens Contributions To Mathematics Essay Research Paper

Womens Contributions To Mathematics Essay, Research Paper


Abstract


Women in the world of mathematics is a subject that people rarely hear about. The only


time people do is if it?s a female math teacher. But what many do not know is that


women have made extremely important contributions to the world of mathematics.


Women have been documented to be involved in mathematics, since as early as the fifth


century A.D. Women such as Hypatia, Maria Gaetana Agnesi, Sophie Germain, Emmy


Noether, Ruth Moufang and Sun-Yung Alice Chang. These women have lived through


difficult times such as women?s oppression, the French Revolution, World War I and II,


which included Hitler?s administration over women?s schooling, and social prejudices.


This did not stop their yearning for math though. These women combined have earned


many different awards, specifically ones usually given to men. They have conquered the


biases people have had towards them and made what they do best count. Many of their


theorems and equations are still used today, and some are even being perfected by others.


It is important that the reader realizes that educating children about women in


mathematics is important. Many children think of mathematicians as men, and that is


totally untrue. That thought could possibly contribute to the fact that women are less


likely to enter the mathematics field compared to men. This is because they are not


educated properly on the subject, and are not given the opportunity to excel. There are


many more women in mathematics then mentioned above, but the ones named are very


important to the field and children need to know that. By taking these 6 women?s


contributions and focusing on how they apply to the middle school curriculum would be


very useful to any teacher. The children could each pick a female mathematician, and


make a poster and do a presentation about their findings. It could also be done as a


group project. As long as the topic gets discussed and that the girls come out feeling like


they could also get involved in mathematics.


Women?s Contributions to Mathematics


In the world of mathematics, you rarely hear anything about women


mathematicians. Although not much is said about women and math, there are many


women mathematicians who have made significant contributions to the field. From as


early as 370 AD, women have been contributing to the study of equations, theorems, and


even solving problems that have deemed themselves in the mathematical world as


impossible. Because of the time period that these women lived, many were not


recognized for their achievement; some were even banished or killed. Names such as


Hypatia, Maria Gaetana Agnesi, Sophie Germain, Emmy Noether, Ruth Moufang, and


Julia Bowman Robinson may not be common to the everyday person. But to


mathematicians around the world, especially women, they are a sign of achievement and


determination in a field dominated by men. In order to make women recognized in the


field of mathematics, educators need to spend time teaching their students that math is not


just for males. Because of the contributions of the women named above, math


exploration has been furthered and many questions have been answered, although some


are still to this day unresolved.


Hypatia


370?-415 AD


Hypatia is the first, truly documented woman mathematician. Her works have


given way to famous male mathematicians such as Newton, Descartes, and Leibniz.


Raised in ancient Egypt during the time that Christianity started to take over many other


religions, it was hard for Hypatia to study anything in an age where males dominated


many fields of study. Hypatia was looked at, though, as a woman of strong character, and


as a strong orator, astrologist, astronomist, and mathematician. Raised mostly by her


father, Theon, a known mathematician of the times, Hypathia gained a lot of knowledge


at a young age. She studied under her father?s supervision, which gave her the wanting to


know the unknown in mathematics.


Hyapthia made many contributions to the study of mathematics, her most famous


being her work on conic sections. A conic section is when a person divides cones into


different parts using planes. Because she edited a book written by Apollpnius so well, her


work survived all the way up until today. Her concepts later developed into what is today


called, hyperbolas, parabolas, and ellipses.


Hypatia died a very tragic death in 415 AD. Because she was a woman in the


field of mathematics and science, many rumors were spread about her. One of the


Christian leaders named Cyril heard of these rumors and because he did not like the civil


governor of Alexandria, where Hypatia lived, he made Hypatia a target. She was very


respected and he knew that killing her would definitely hurt the city. On her way home


one night, she was attacked by a mob and literally skinned with oyster shells. Some say


she died for the love of mathematics(Adair, 1995).


Maria Gaetana Agnesi


1718-1799


Maria Gaetana Agnesi was not really considered a mathematician in her time. But


now that some people look back, she made a very significant contribution to the world of


mathematics. She practiced mathematics during the Renaissance in Italy. During this


time, it was considered an honor to be an educated woman. So Maria was both looked up


to and considered a prodigy by the time she was very young. This could be attributed to


the fact that her father was an upstanding mathematician and professor in Milan, Italy.


He often had lectures and seminars at his house for people to come and hear about math.


She liked to listen to these lectures which may have sparked her interest in mathematics.


There are two accomplishments that Maria is accredited with. Her first is her


book that she got published called Analytical Institutions, which was about integral


calculus. Some say that it was originally written for her younger brothers, to aide them in


math. Now that the book has been translated, many mathematicians are using her work


and it is used as a textbook.


Her second accomplishment is a curve called the Witch of Agnesi. Maria came


up with the equation for this well known curve: y= a*sqrt(a*x-x*x)/x . The way to


generate the curve is xy2=a2(a-x)(Golden & Hanzsek-Brill, no date) The reason why it


is called the Witch of Agnesi is because the man who translated the name of the curve


may have mistranslated the Latin word versiera. It can either mean ?to turn? or ?the wife


of the devil.? This curve is very useful in the field of mathematics; even Fermat studied


this curve. Fermat also made the famous problem called Fermat?s Last Theorem, which


famous female mathematician Sophie Germain studied (Unlu, 1995).


Sophie Germain


April 1, 1776-June 27,1831


Sophie Germain, was born right before the French Revolution. She was born into


the middle class, and this meant that she had to hide her identity in order to practice math.


The middle class was not supportive of women studying math, therefor much of her work


is done under her pseudonym M. Leblanc. Because of the Revolution, Sophie had to


spend many days in her house, for fear of being killed in a revolt. She was intrigued by


the story of Archimedes and how he got killed because he would not respond to a soldier


while looking at a math problem. Some people think this is why Sophie choose to study


mathematics.


Sophie Germain studied under famous mathematician of the time, Carl Friedrich


Gauss. Gauss was really into number theory and Fermat?s Last Theorem. Fermat?s Last


Theorem is closely related to the Pythagorean theorem. Instead of using x2+y2=z2,


Pierre de Fermat used x,y,and z raised to powers of 3, 4, 5,etc. Many think that this


problem was unsolvable, but Fermat said that he had proof it could work. The mystery is


though, that Fermat never wrote down his solution. It was up to future mathematicians to


find the solution that Fermat claimed.


Sophie was up to the challenge, and in a letter to Gauss, written in 1808 she came


up with a calculation that said something about several solutions. Fermat?s theory says


there are no positive integers such that for n*2. But Sophie proved in her theorem that if


x, y, and z are to the fifth power than n has to be divisible by five. Sophie said that this


would work only with what are now called Germain primes. Germain primes are primes


such that when you take a prime, multiply it by two, and then add one, your answer will


be prime. Some Germain primes are 2, 3, 5, 11, 23 and 29 (Singh, no date). In 1825,


she proved, that for the first part of Format? Last theorem, these primes would work.


There are many other mathematicians that have followed up on Sophie?s work on


Fermat?s Last Theorem. Number theorist ,Euler and Legrange, proved that if p=3 is


prime, 2p+1 is also prime if and only if 2p+1 divides 2p-1. In 2000, famous number


theorist, Henri Lifchitz, found an easier way to determine a Germain prime. He says that


if p*=5 is prime, q=2p+1 is also prime if and only if q divides 3p-1. It turns out though in


1994, Andrew Wiles, a researcher at Princeton, claimed to have proof of the theorem.


His manuscripts have been reviewed and it is among the majority that he has proved it


(Swift, 1997)


Emmy Noether


March 23, 1882-April 14, 1935


Still in the late 1800s, it was not proper or allowed for a woman to go to college.


Emmy Noether became one of these women, when she was denied enrollment at the


University of Erlangen. They did allow her, though, to sit in on two years of math


classes and take the exam

that would let her be a doctoral student in math. She passed the


test and after going for five more years, she was given a diploma. After graduation,


Emmy decided to take up teaching, but the university would not hire her because she was


a woman. So she decided to work along side her father, who at the time was a professor


at the university. Emmy Noether’s first piece of work was finished in 1915. It is work in


theoretical physics, sometimes called the Noether’s Theorem, which proves a relationship


between symmetries in physics and conservation principles. This basic result in the


general theory of relativity was praised by Einstein, where he commended Noether on her


achievement.


During the 1920s Noether did foundational work on abstract algebra, working in


group theory, ring theory, group representations, and number theory. During the time that


she was a teacher, Germany was involved in WWI and WWII. Because of the war, and


since Noether was a Jew, she was forced out of Germany and went to live in the United


States ( ?Emmy Noether?, no date).


While in the United States, Noether taught at an all girls college. Her students


loved her and many followed her teachings. Some say that they way she taught was


phenomenal. She was clear and used many different methods of teaching so that her


students could understand math easier. She was praised by Einstein constantly on her


theory of relativity. Albert Einstein paid her a great tribute in 1935: “In the judgement of


the most competent living mathematicians, (Emmy) Noether was the most significant


creative mathematical genius thus far produced since the higher education of women


began.” Throughout her career she worked with many mathematicians such as Emanuel


Lasker, Bartel van der Waerden, Helmut Hasse and Richard Brauer. Twice Noether was


invited to address the International Mathematical Congress (1928, 1932). In 1932 she


received the Alfred Ackermann-Teubner Memorial Prize for the Advancement of


Mathematical Knowledge. It is said that her greatest work was that of abstract algebra


(Taylor, 1995).


Ruth Moufang


January 10, 1905-November 26, 1977


Like the Nazis refused Emmy Noether the right to teach, Ruth Moufang was also


denied the right. Because of this, Ruth Moufang decided to enter the field of industrial


mathematics, and work on the elasticity theory. She was the first German woman to have


a doctorate in this field. Ruth Moufang published one famous paper on group theory.


This paper was first written based on the writings of Hilbert. Ruth?s most famous


teachings were on number theory, knot theory, and the foundations of geometry. She also


is famous for what we call today, Moufang planes and Moufang loops. Moufang loops


are a class of loops which arise naturally in many other fields such as finite group theory


and algebraic geometry (O?Conner & Robertson, 1996).


Sun-Yung Alice Chang


March 24, 1948-present


Sun-Yung was born in Ci-an, China. During research, no information was found


on the time period when she was born. What was found though is an abundance of


information on her college life and what her contributions to mathematics were.


Sun_Yung Chang received her doctorate in mathematics from University of


California. She then went to teach college math at UCLA. Currently, she still teaches at


UCLA, but since she started many things have happened to her.


Her greatest accomplishment is when she received the Ruth Lyttle Satter prize for


her contributions to mathematics over the last five years. She was awarded the prize for


her contributions to partial differential equations and on Riemannian manifolds. The


study of manifolds having a complete Reimannian Metric is called Reimannian geometry


(Weinsstein, 1996-2000). This is a topic that Sun-Yung studied a lot. Sun-Yang says, in


her speech at the American Mathematical Society, ?Following the early work of J Moser


and influenced by the work of T Aubin and R Schoen on the Yamabe problem, P. Yang


and I have solved the partial differential equation of Gaussian/scalar curvatures on the


sphere by studying the extremal functions for certain variation functionals. We have also


applied this approach in conformal geometry to the isospectral compactness problem on


3-manifolds when the metrics are restricted in any given conformal class. More recently


we have been studying the extremal metrics for these functionals. We are working to


derive further geometric consequences. This latter piece of work is a natural extension of


the earlier work by Osgood-Phillips-Sarnak on the log-determinant functional on compact


surfaces.?(O?Conner & Robertson,1998, p. 2) Sung-Yung is already considered to be a


great mathematician, even though she says there is still work to be done.


Women in Mathematics connected to the Middle School Curriculum


In Sun-Yung?s speech, given at the acceptance of her award in 1995 she states,


?Since the Satter Prize is an award for women mathematicians, one cannot help but to


reflect on the status of women in our profession now. Compared to the situation when I


was a student, it is clear that there are now many more active women research


mathematicians. I can personally testify to the importance of having role models and the


companionship of other women colleagues. However, I think we need even more women


mathematicians to prove good theorems and to contribute to the profession.? (O?Conner


& Robertson, 1998, p. 2)


This is exactly why this topic needs to be discussed in the middle grades. Girls


need to know that mathematics is not only for men. Young girls may be less apt to go


into the field of mathematics based on the biases that have been going for years.


Teachers need to tell about the importance of mathematical skills for both boys and girls,


and also need to plan activities centered around women in mathematics. By talking to


young girls in middle school about female mathematicians, educators could possibly


ignite a flame, under possibly, another great female mathematician.


Although many do not think of women as mathematicians, there are many women


who have proved themselves in the mathematical world. Through their theorems and


problem solving, these women have furthered the world of mathematics, for others to


someday conquer.


References


Adair, G. (1995). Hypatia. Agnes Scott College [Online]. Available:


http://www.agnesscott.edu/lriddle/women/agnesi.htm [1 March 2000].


Emmy Noether (no date). [Online].


Available:http://www.coastal.edu/academics/science/jump/biography/enoether.ht


ml [5 March,2000].


Golden & Hanzsek-Brill. (no date). Investigation of the Witch Curve. [Online].


Available: http://jwilson.coe.uga.edu/Texts.Folder/Agnesi/witch.html [1 March,


2000].


O?Conner, J.J., & Robertson, E.F. (1996). Ruth Moufang. [Online]. Available:


http://www-groups.dcs.st-and.ac.uk/~history/Mathematicians/Moufang.html [24


February 2000].


O?Conner, J.J., & Robertson, E.F. (1998). Sun-Yung Alice Chang. [Online]. Available:


http://www-groups.dcs.st-and.ac.uk/~history/Mathematicians/Chang.html [6


March 2000].


Singh, Simon. (no date). Math?s Hidden Women. [Online]. Available:


http://www.pbs.org/wgbh/nova/proof/germain.html [1 March 2000].


Swift, Amanda. (revised in 1997). Sophie Germain. Agnes Scott College [Online].


Available: http://www.agnesscott.edu/lriddle/women/germain.htm [1 March


2000].


Taylor, Mandie. (1995). Emmy Noether. Agnes Scott College [Online]. Available:


http://www.agnesscott.edu/lriddle/women/noether.htm [2 February 2000].


Unlu, Elif. (1995). Maria Gaetana Agnesi. Agnes Scott College [Online]. Available:


http://www.agnesscott.edu/lriddle/women/agnesi.htm [1 March 2000].


Weisstein, Eric. (1996-2000). Riemannian Geometry. Wolfram Research Inc. [Online].


Available: http://www.mathworld.wolfram.com/RiemannianGeometry/html [7


March 2000].


Bibliography


References


Adair, G. (1995). Hypatia. Agnes Scott College [Online]. Available:


http://www.agnesscott.edu/lriddle/women/agnesi.htm [1 March 2000].


Emmy Noether (no date). [Online].


Available:http://www.coastal.edu/academics/science/jump/biography/enoether.ht


ml [5 March,2000].


Golden & Hanzsek-Brill. (no date). Investigation of the Witch Curve. [Online].


Available: http://jwilson.coe.uga.edu/Texts.Folder/Agnesi/witch.html [1 March,


2000].


O?Conner, J.J., & Robertson, E.F. (1996). Ruth Moufang. [Online]. Available:


http://www-groups.dcs.st-and.ac.uk/~history/Mathematicians/Moufang.html [24


February 2000].


O?Conner, J.J., & Robertson, E.F. (1998). Sun-Yung Alice Chang. [Online]. Available:


http://www-groups.dcs.st-and.ac.uk/~history/Mathematicians/Chang.html [6


March 2000].


Singh, Simon. (no date). Math?s Hidden Women. [Online]. Available:


http://www.pbs.org/wgbh/nova/proof/germain.html [1 March 2000].


Swift, Amanda. (revised in 1997). Sophie Germain. Agnes Scott College [Online].


Available: http://www.agnesscott.edu/lriddle/women/germain.htm [1 March


2000].


Taylor, Mandie. (1995). Emmy Noether. Agnes Scott College [Online]. Available:


http://www.agnesscott.edu/lriddle/women/noether.htm [2 February 2000].


Unlu, Elif. (1995). Maria Gaetana Agnesi. Agnes Scott College [Online]. Available:


http://www.agnesscott.edu/lriddle/women/agnesi.htm [1 March 2000].


Weisstein, Eric. (1996-2000). Riemannian Geometry. Wolfram Research Inc. [Online].


Available: http://www.mathworld.wolfram.com/RiemannianGeometry/html [7


March 2000].

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