(f) They store grain for long periods in winter and if the grain begins to bud, they cut off the roots, as if understanding that if they let it grow , it will rot. If the grain they store gets wet from rain, they put it out in the sun to dry, and once dry, they bring it inside as if they knew the moisture would cause systems to develop roots which would lead to rotting of the grain. . Allah knows best.[2]Say no to plagiarism. Get a tailor-made essay on “Why Violent Video Games Should Not Be Banned”? Get the original essayBernhard Riemann, born in 1826, a native of northern Germany, was one of the most influential surveyors of all time. The young Riemann constantly amazed his teachers and demonstrated exceptional mathematical skills from an early age. After an astute teacher gave him free access to the school library, he devoured the mathematical texts of Legendre and others and gradually transformed himself into an excellent mathematician. A deeply religious young man, he also continued to study the Bible intensively and at one point even tried to mathematically prove the accuracy of the book of Genesis. Although he began studying theology to become a priest and help with his family's finances, Riemann's father eventually managed to raise enough money to send him to study mathematics at the famous Guttingen University in 1846, where he met for the first time and attended the lectures of Carl Friedrich Gauss. With Gauss's support, he gradually rose through the ranks of the university hierarchy to become a professor and, ultimately, head of the mathematics department at Guttingen. Riemann developed a type of non-Euclidean geometry, different from the hyperbolic geometry of Bolyai and Lobachevsky, known as elliptic geometry. As with hyperbolic geometry, parallel lines do not exist and the angles of a triangle do not add up to 180°. He then developed Riemannian geometry, which unified and broadly generalized the three types of geometry, as well as the concept of multiple or mathematical space, which generalized the ideas of curves and surfaces. A turning point in his career came in 1852 when, at the age of 26, he gave a lecture on the foundations of geometry and outlined his vision of a mathematics of different types of space. Although not widely understood at the time, Riemann's mathematics changed the way we see the world and opened the way to higher dimensional geometry, a potential that had existed, unrealized, since the days of Descartes. The discovery of the Riemann zeta function and the relationship between its zeros and prime numbers brought Riemann instant fame when it was published in 1859. He died young, at just 39, in 1866, and many of his papers flew were accidentally destroyed. after his death. More than 150 years later, the Riemann Hypothesis is still considered one of the fundamental questions in number theory, and indeed all mathematics, and a million-dollar prize has been offered for the solution complete final. Keep in mind: This is just a sample. Get a custom paper from our expert writers now. Get a custom essay Find more topics for your quantitative research paper.