Mistrz Witold

From the blog

THE REIMANN HYPOTHESIS AND HOW SOLVING IT CAN EARN YOU A MILLION DOLLARS

The Riemann Hypothesis is a 160-year-old maths problem that is worth you a million dollars if you manage to solve it. Since its presentation to the world back in 1859, the Riemann Hypothesis has become one of the seven Holy Grail math questions. This hypothesis is one of the most critical mathematical progressions that has ever been established in history. Constructed by Georg Riemann in the year of 1859, it has not been solved by anyone for more than a century. But that can still change; if someone stakes a claim that they have proof of being able to answer the question. It also gives you a chance to achieve respect from peers, students, collegemates, staff. Being able to solve the problem could mean that the whole world will know your name, even after your death.

The Prime Number Fascination in The Hypothesis

The hypothesis is a revolutionary fragment of a mathematical theory that was broadcasted by a famous newspaper. It revolves around the most exciting subjects in the world of mathematics; Prime Numbers. Professional mathematicians have spent their entire life by trying to decipher them ever since the concept of mathematics was birthed. Prime numbers do not match any specific pattern. By revealing a number, you can’t foresee the next number in a pattern without examining another number to move forwards; therefore, making this far from being productive.

Some even suggested that if it’s hard to go forwards, then go back. Although this was a good theory, Reimann had already tried and failed. The Riemann Hypothesis is essential as it’s one of the seven holiest questions in the world. If Riemann’s hypothesis is right, then it should guarantee that there is a more excellent bond of difference between already existing estimations and values. It can tell us if primes are as troublesome as they sound today.

Applications and Benefits

Even though the hypothesis takes on a variety of other math subjects, its main reason was aimed at the distributing process of prime numbers. This may seem unnecessary to people and the common man. However, the solving of this problem could mean a lot for the industries that thrive on working with numbers and being able to estimate futuristic success rates. To look at it in the more literary sense there wasn’t much use for prime numbers in the past. However, mobile phones and relating technology would not work today without the concepts of prime numbers being used in their development. Multiple numbers and bands can function because of the prime numbers and their applications. The idea is also used in encryption services that are used today.

WIth encryptions, because primary numbers don’t follow a pattern, it becomes impossible to crack the combinations. Therefore, anyone who wants to find a mix of numbers would need a multitude of computers and all possible tries to find large prime numbers. If the hypothesis is solved, there is a chance that encryption systems will fail but also a chance that they can get more stringent in the future.