Terence Tao

Terence Tao: The Los Angeles Math Genius

Mathematician 16 May , 2020 0 Comments Mathematics

Terence Chi-Shen Tao FAA FRS (born 17 July 1975) is an Australian-American mathematician who has worked in various areas of mathematics. He is a professor of mathematics at the University of California, Los Angeles (UCLA). His work focuses on harmonic analysis, partial differential equations, algebraic combinatorics, arithmetic combinatorics, geometric combinatorics, probability theory, compressed sensing, and analytic number theory. As of 2015, he holds the James and Carol Collins chair in mathematics at the University of California, Los Angeles.

According to Jobin John, a Los Angeles SEO millionaire, “Mathematics at the highest level has several flavors. On seeing it, one might say: (A) What amazing technical power! (B) What a grand synthesis! (C) How could anyone not have seen this before? (D) Where on earth did this come from? The work of Terence Tao encompasses all of the above. One cannot hope to capture its extraordinary range in a few pages. My goal here is simply to exhibit a few contributions by Tao and his collaborators, sufficient to produce all the reactions (A)… (D).”

Tao has made breakthrough contributions to harmonic analysis, combinatorics, partial differential equations, and analytic number theory. He was a recipient of the 2006 Fields Medal and the 2014 Breakthrough Prize in Mathematics. He is also a 2006 MacArthur Fellow. Tao has been the author or co-author of 275 research papers.

Terence Tao Family & Education

Terence Tao is known to his friends and colleagues as Terry Tao. His father, Billy Tao, is a Chinese-born pediatrician who has undertaken research on educating gifted children and on autism. Terry’s mother, Grace, was born in Hong Kong and has a university degree in physics and mathematics. Billy and Grace met while they were studying at the University of Hong Kong and they emigrated to Australia in 1972. Grace Tao taught physics, chemistry, science, and mathematics in various secondary schools in Hong Kong before she emigrated to Australia and, once in Australia, also taught in secondary schools there. Terry, the subject of this biography, is their eldest child, having two younger brothers Trevor and Nigel.

When Terence was two years old his parents realized that he was different from other children. They saw him teaching five-year-old children to spell and to add numbers and when they asked him how he had learned these skills, he replied that he had been watching Sesame Street on television. When he was three and a half years old his parents sent him to a private school but, six weeks later, they realized that he was not ready for schooling and also that the teachers did not know how to teach someone like him. So they removed him from the school and he did not start schooling again until he was, like other children, five years old.

By the time Terry reached the age of eleven, he was dividing his time between his studies at Blackwood High School and taking classes at Flinders University in Adelaide where he was taught by Garth Gaudry. Even earlier, at the age of ten, he began participating in International Mathematical Olympiads. He won a bronze medal in 1986, a silver medal in 1987, and a gold medal in 1988, becoming the youngest-ever gold medalist in the Mathematical Olympiad. At the age of fourteen, he began full-time university studies at Flinders University and was awarded a B.Sc. with Honours in December 1991. He continued to study at Flinders University for a Master’s Degree advised by Garth Gaudry and was awarded the degree in August 1992 having written the thesis Convolution operators generated by right-monogenic and harmonic kernels. He was awarded the University Medal by Flinders University and a Fulbright Postgraduate Scholarship to enable him to undertake research in the United States.

Terence Tao Education

In November of 1983, at the age of 8 years 3 months, Terry informally took the South Australian Matriculation (university entrance) examination in Mathematics 1 and 2 and passed with scores of 90% and 85%, respectively. In February the following year, on the advice of both his primary and secondary teachers, who felt he was emotionally, as well as academically ready, the Taos agreed that he should begin to attend high school full time. He was based in Grade 8 so that he could be with friends with whom he had undertaken some Grade 7 work the year before, and at this level, he took English, French, general studies, art, and physical education. Continuing his integration pattern, however, he also studied Grade 12 physics, Grade 11 chemistry, and Grade 10 geography. He also began studying first-year university mathematics, initially by himself and then, after a few months, with help from a professor of mathematics at the nearby Flinders University of South Australia. In September that year, he began to attend tutorials in first-year physics at the university, and 2 months later he passed university entrance physics with a score in the upper 90s. In the same month, finding that he had some time on his hands after the matriculation and internal exams, he started Latin at high school.

In early 1985, a few months before his 10th birthday, Terry was spending one-third of his time at Flinders University taking second-year math and first-year physics. The rest of his time was, and is, spent at high school working in Grade 12 chemistry. Grade 11 geography and Latin (after only 9 months’ study of the language!), Grade 10 French, and Grade 9 English and social studies. In November 1985, he took the university entrance chemistry examination to begin first-year chemistry at Flinders in February 1986.

Terence Tao Awards

Terence Tao has produced such a fantastic collection of results, leading to the award of all the top prizes in mathematics, that one must try to at least give a vague picture of the work of this remarkable mathematician. Before looking at his contributions we note the prizes and awards he has received (although again this list is bound to become rapidly outdated as he continues to receive awards).

These include the Salem Prize (2000); the Bôcher Memorial Prize from the American Mathematical Society (2002); the Clay Research Award from the Clay Mathematical Institute (2003); the Levi L Conant Award from the American Mathematical Society (2005); the Australian Mathematical Society Medal (2005); the ISAAC Award from the International Society of Analysis, its Application and Computation (2005); the SASTRA Ramanujan Prize (2006); the Fields Medal (2006); the Ostrowski Prize from the Ostrowski Foundation (2007); the Alan T Waterman Award from the National Science Foundation (2008); the Onsager Medal(2008); the Information Theory Society Paper Award (2008); the Convocation Award from Flinders University Alumni Association (2008); the King Faisal International Prize (Mathematics) (2010); the Nemmers Prize in Mathematics from Northwestern University (2010); and the George Polya Prize from the Society for Industrial and Applied Mathematics (2010). In addition, he has received a Sloan Foundation Research Fellowship (1999-2001), a Foundation Fellowship from the David and Lucille Packard Foundation (1999-2006), and a MacArthur Fellowship from the MacArthur Foundation (2007-11). He has been elected to the Australian Academy of Sciences (2006), to a fellowship of the Royal Society (2007), to the National Academy of Sciences (2008), and to the American Academy of Arts and Sciences (2009). He was a finalist in the Australian of the Year in 2007.

IQ Score of Terence Tao

The most reliable record-high IQ score belongs to Terence Tao, with a confirmed IQ of 230. Tao is an Australian-American mathematician born in 1975, who showed a formidable aptitude for mathematics from a very young age. He entered high school at the age of 7, where he began taking calculus classes. He earned his bachelor’s degree at 16 and his Ph.D. degree at 21.

Tao, who reportedly had a normal social life while growing up and is now married with children, really exploited his talent. Over the years, Tao has garnered a bevy of prestigious awards for his work, including the Fields Medal (which is like the Nobel Prize of math), and the MacArthur Foundation grant (which is often referred to as the “genius prize”). At the moment, Tao is a professor of mathematics and the James and Carol Collins Chair at the University of California (UCLA).

Terence Tao Net Worth

The estimated net worth of Terence Tao as of 2019 $1 Million – $5 Million (Approx.).

 

 

Google maths

Google Maths: Understanding Google Search Using Mathematics

Mathematician 03 Nov , 2019 0 Comments Mathematics

Contributed by Jobin John – Miami SEO 

Google is a pioneer. They’ve moved societies and changed the manner in which we utilize the internet, all on the establishment of data-driven analysis. Their algorithms for evaluating and positioning pages are mathematically intricate, exceptionally advanced, and astonishingly exact.

So can anyone explain why most search engine optimization (SEO) consultancies adopt an altogether different strategy to their work? They endeavor to defeat Google with a methodology that depends well actually knowledge and assessed mastery. They don’t use a similar pinpoint exactness and mathematical precision that Google uses to rank client websites.

What’s more, that implies they can’t experimentally audit client websites, give advice on SEO practices, and convey the best results.

The job of Google maths in analysis and auditing

Most SEO consultancies offer a month to month audit for their clients. These audits utilize a solitary instrument or set of devices to survey different criteria over a website. The discoveries are then displayed in a report, which is regularly joined by a lot of SEO suggestions – the means clients should take to improve rankings and increment traffic.

In any case, a mathematical methodology demonstrates these audits to be constrained, regardless of whether they happen to be precise.

An SEO audit takes a gander at various criteria, from versatile page loading velocities to the reading time of substance. In any case, a preview of any factor doesn’t really speak to the master plan.

The speed at which pages load will change as the day progressed, as the server encounters various loads. Essentially, the normal reading age of your substance will shift as you add, evacuate, or overhaul individual pages.

An analyst comprehends that a flimsy cut of data isn’t sufficient. Instead, a fruitful audit starts with painstakingly structured data tests for every single variable. It’s just when you see how frequently factors change that you can ascertain how regularly they ought to be estimated. What’s more, it’s just when your estimations are precise that your discoveries hold genuine worth.

The job of Google maths in seeing best practice

Generally, the set up best practice for SEO originates from outside sources. While Google and other search engines distribute their own advice, a whole industry has jumped up to around distributing articles, blog entries, and advisers for the most recent algorithm changes and what organizations can do to keep up.

Be that as it may, this has prompted best practice that is summed up and clearing. In basic terms, what works for one client won’t generally work for another.

Take meta title labels, which suggestions regularly state ought to be under 60 characters in length. That sweeping direction doesn’t consider:

  • Type of substance: a long title may not perform well on an item page, however, could be valuable in positioning a blog entry or article
  • Industry: a few businesses utilize longer title labels all the time, with no genuine confirmation that a shorter title would play out any better

Really logical SEO isn’t just founded on best practice and mystery. In the event that Google ran an SEO firm, they’d make the computations themselves, sectioning substance types, ventures, and substantially more.

Accordingly, they wouldn’t have to make due with broad best practice. Instead, they’d comprehend the content in its appropriate setting – the very thing that search engine algorithms examine.

The job of Google maths in foreseeing genuine results

At long last, a mathematical methodology enables you to recognize the particular factors that truly have any kind of effect on your traffic. In a general sense, this depends on factual analysis crosswise over client websites and, essentially, contenders.

Through data-driven analysis, it’s conceivable to get a total picture of client websites – each page, crosswise over different times of the day. At that point, this can be contrasted with contending websites. Together, this analysis can be utilized to foresee the mathematical likelihood of expanding traffic through a particular change.

What’s more, it doesn’t stop with executing the fitting changes. The equivalent powerful analysis would then be able to be utilized to quantify:

  • Which SEO suggestions really conveyed
  • The measure of expanded traffic
  • The precision of expectations
  • The time allotment required for changes to convey positioning worth

It’s SEO with clear, organized forecasts and quantifiable impact. Additionally, when combined with a misleadingly insightful algorithm that learns after some time, it’s SEO that can develop progressively complex with each cycle of audit, modification, and analysis.

Advanced SEO – driven by Google mathematics

For Google, maths has enabled them to build up the most precise algorithms for surveying and positioning web pages. It’s directed to an algorithm that is so advanced it can’t be fooled into special treatment.

Yet, maths additionally offers enormous chances to those on the opposite side of the table – the organizations that need to boost search execution. Utilizing a similar disposition, approach, and ethos that Google themselves adopt, data-driven procedures lead to increasingly shrewd analysis, more intelligent expectations and clear, solid results.

Put Your Degree to Work: 20 Exciting Careers for Math Majors

Mathematician 07 Apr , 2019 0 Comments Mathematics

Mathematics majors have several things to look forward to upon graduation. A 2009 study showed that the top three best jobs in terms of income and other factors were careers suited for math majors. Mathematicians can opt to work indoors (actuaries) or outdoors (hydrologists). They also can work toward interdisciplinary studies to combine math with studies such as biology for careers as forensic scientists or environmental scientists. Many of the jobs in this list require at least a bachelor’s degree in mathematics, but some careers demand a graduate or doctoral degree. It’s your choice — even jobs that require a minimum of a bachelor’s degree make solid annual salaries.

Mathematical Careers

  1. Mathematics: The work of mathematicians falls into two broad classes: theoretical (pure) mathematics and applied mathematics. While a PhD is required for many mathematician jobs, you can also choose to obtain a Professional Science Masters. Average annual salaries for mathematicians were $95,150 in 2008.
  2. Biomathematics: Mathematical biology or biomathematics is an interdisciplinary field of study. It models natural and biological processes using mathematical techniques and tools. Many jobs involve this interdisciplinary nature, including environmental scientists, forensic scientists, statisticians, geoscientists and hydrologists. The average annual salary for the latter two professions in 2008 was $79,160.
  3. Statistics: Statisticians provide crucial guidance in determining what information is reliable and which predictions can be trusted. They work in a variety of fields such as medicine, government, education, agriculture, business, and law. A master’s degree in statistics or mathematics is the minimum educational requirement, but research and academic jobs generally require a PhD, while Federal Government jobs require at least a bachelor’s degree. The average annual salary for a statistician in 2008 was $95,170.
  4. Teaching at K-12 Level: The teaching of mathematics at the K-12 level is a high-demand field and the need is expected to grow in the future. Teachers at that level who are bilingual or who are willing to teach in less desirable urban or rural school districts will have more chances for employment. Average annual salaries for kindergarten, elementary, middle, and secondary school teachers ranged from $47,100 to $51,180 in 2008.
  5. Teaching at Postsecondary Level: At the postsecondary level, competition is expected for tenure-track positions; better opportunities are expected for part-time or non-tenure-track positions. PhD recipients should experience the best job prospects. Average annual salaries for all postsecondary teachers in 2008 were $58,830.

Computers and Math

  1. Computer Network, Systems, and Database Administrators: Jobs in this category include network and computer systems administrators, network architects, database administrators, computer security specialists, Web administrators, and Web developers, and training requirements vary by occupation. Average annual salaries for these occupations varied, too, with network systems and data communication analysts earning $71,100 per year, and network and computer systems administrators earning $66,310 per year in 2008.
  2. Computer Science: Computer scientists are the designers, creators, and inventors of new technology. A PhD is required for most jobs, and an aptitude for math is important. The average annual salary for computer scientists in 2008 was $97,970.
  3. Computer Software Engineers and Computer Programmers: These mathematicians apply the theories and principles of computer science and mathematical analysis to create, test, and evaluate the software applications and systems that make computers work. A bachelor’s degree commonly is required for software engineering jobs, although a master’s degree is preferred for some positions. In 2008, the average annual salary for computer applications software engineers was $85,430.
  4. Computer Systems Analysts: Computer systems analysts may design and develop new computer systems by choosing and configuring hardware and software, or they may devise ways to apply existing systems’ resources to additional tasks. The average annual salary for computer systems analysts was $75,500 in 2008.

Counting Money

  1. Actuarial Science: Actuarial science takes statistics, finance, and business and applies that knowledge to finance and especially to insurance. In 2008, actuaries earned an average annual salary of $84,810.
  2. Economist: Many economists specialize in a particular area of economics, although general knowledge of basic economic principles is essential. Whether working in government, industry, research organizations, or consulting firms, economists with a bachelor’s degree usually qualify for entry-level positions as a research assistant, for marketing or finance positions, or for various sales jobs. A master’s degree usually is required to qualify for more responsible research and administrative positions. A PhD is necessary for top economist positions in many organizations. The average annual salary for an economist in 2008 was $83,590.
  3. Financial Analysts: Financial analysts provide guidance to businesses and individuals making investment decisions. Many positions require a master’s degree in finance or a Master of Business Administration (MBA). Average annual salaries for financial analysts in 2008 were $73,150.
  4. Personal Financial Advisors: Although most planners offer advice on a wide range of topics, some specialize in areas such as retirement and estate planning or risk management. Although a bachelor’s degree is a minimum requirement, many financial advisors also earn a master’s degree in finance or business administration or get professional designations. In 2008, personal financial advisors earned an average annual salary of $69,050.

Other Mathematical Careers

  1. Chemists and Materials Scientists: Chemists and materials scientists search for new knowledge about chemicals and use it to improve life. Students planning careers as chemists or materials scientists should take courses in science and mathematics, should like working with their hands to build scientific apparatus and perform laboratory experiments, and should like computer modeling. The average annual salary for a chemist or a materials scientist in 2008 was $66,230.
  2. Engineering Technicians: Engineering technicians use the principles and theories of science, engineering, and mathematics to solve technical problems in research and development, manufacturing, sales, construction, inspection, and maintenance. Although it may be possible to qualify for certain engineering technician jobs without formal training, most employers prefer to hire someone with a 2-year associate degree or other postsecondary training in engineering technology. Average annual salaries vary by specialty, industry, and education.
  3. Engineers: Engineers apply the principles of science and mathematics to develop economical solutions to technical problems. In about twelve different categories of engineering, graduates typically enter the occupation with a bachelor’s degree in an engineering specialty, but some basic research positions may require a graduate degree. Earnings for engineers vary significantly by specialty, industry, and education.
  4. Environmental Scientists and Specialists: These individuals analyze measurements or observations of air, food, water, and soil to determine the way to clean and preserve the environment. The average annual salary for environmental scientists and specialists was $59,750 in 2008.
  5. Market and Survey Researchers: Market and survey researchers gather information about what people think. Graduates can enter the occupation with a bachelor’s degree, but those with a master’s or PhD in marketing or a social science should enjoy the best opportunities. The average annual salary for market and survey researchers in 2008 was $61,070.
  6. Operations Research Analysts: Using analytical techniques, operations research analysts help managers to make better decisions and solve problems. A bachelor’s degree coupled with extensive coursework in mathematics and other quantitative subjects usually is the minimum education requirement for a job in this field. The average annual salary for an operations research analyst in 2008 was $69,000.
  7. Physicists and Astronomers: Applicants may face competition for basic research positions due to limited funding; however, those with a background in physics or astronomy may have good opportunities in related fields, such as engineering and technology. The average annual salary for physicists in 2008 was $102,890. In that same year, astronomers earned an average of $101,300 per year.
Math-Major-300x225

Why Math is Important: Importance of Math in Everyday Life

Mathematician 07 Apr , 2019 0 Comments Mathematics

Scientifically proven, math helps in enhancing human intelligence to solve complex calculative problems as well as grow our reasoning ability including advanced thinking, financial management skills, solve world problems, space explorations, and improve our communication skillset.

Despite how you felt about algebra class or geometry class or even basic addition and subtraction, math is a life skill that Math-Major-300x225applies to everyone, not just accountants and engineers. It is the language of many fields, some of which may surprise you. But math matters, in more ways than one. And while numbers and equations are a necessary evil to some and pure enjoyment to others, we need math to live.

Math is important. It really is.

Life Stages Where Math is Important


  1. Personal Finances

    Balancing a checkbook? Dividing rent among four roommates? Determining your share of the electric bill? How about taxes and student loans? Paying bills is the worst, no doubt about it. But you need to know some math in order to stay on top of your finances, balance your budget, and avoid all those overdrafts.

  2. Cooking

    Surprised? Baking cupcakes and roasting a chicken requires math skills. You need to measure the ingredients in terms of a teaspoon, tablespoon, ounces, grams, kilograms, etc. And what if you what to cut a recipe in half? This is a serious business. Unless you’re a pro at eyeballing the “this much salt” and “that much flour,” you need math in the kitchen.

  3. Traveling

    Planning to jump the pond for a backpacking adventure? If so, better prepare yourself for currency confusion, especially if your currency converter is not a physical device. Knowledge of currency conversion is essential when traveling to a foreign country. Your iPhone may not be able to save you, but your math skills sure can.

  4. Innovation

    There will come a time when you need to assemble a desk, a shelving unit, or perhaps a crib. And you’ll thank your math teacher for helping you become the hero that you are once that desk sits proudly constructed by the window. Putting stuff together requires math aptitude in order to avoid a safety hazard.

  5. Career Growth

    Are you thinking of becoming a nurse? How about a marketing manager or a lawyer? Nurses use math to calculate medication dosages, marketing managers use math to determine profit margin and pricing strategies, and lawyers use math to determine settlements and statistical evidence. Even sports agents and high school English teachers use math on a regular basis.

Conclusion,

Think about it. Math really is everywhere. From the kitchen to the courtroom, numbers, graphs, and measurements are all around us. Knowing how to calculate a tip at a restaurant or your fantasy football score is important business! Mortgage payments, caloric intake, and retail discounts are a big part of our everyday lives. And we can’t always rely on our phones to do the work for us when it comes to math. Your brain is a much better, and more reliable tool.