Particles tend to behave differently once there are a lot of them. The microscopic models that describe their behavior quickly become very hard to calculate, because of the increasing complexity and the sheer volume of the data. This presents a challenge to researchers who are interested in the dynamics of macroscopic systems, such as nature, populations or tumors. By taking the number of particles to infinity, mathematician Jasper Hoeksma has developed a way to come up with mathematical equations that work at both levels. He successfully defended his thesis at the department of Mathematics and Computer Science on Friday, February 3.
Mathematician develops equations that seek to bridge the micro and macro realms
More In Finance
-
Canada has some of the highest interchange fees in the world. Interchange fees are the fees businesses pay each time their customers pay by credit card. The average interchange fee in Canada is about 1.5 per cent of [...]
-
Main Street businesses that survived COVID-19 restrictions are now navigating a pandemic recovery where predicted changes in the retail industry have been accelerated by five to 10 years. The ability to adapt to these changes, coupled [...]
-
The big idea Consumers who see a product on sale being virtually touched are more engaged and willing to pay more than if the item is displayed on its own, according to a recent research paper [...]
-
Entrepreneurs, their associated startups and the subsequent growth of their companies have a vital impact on the health of our economy. In Canada, young adults have demonstrated a growing interest in entrepreneurship. Entrepreneurship has historically been narrowly [...]
-
Economics is broadly divided into macroeconomics and microeconomics. The big picture, macroeconomics, concentrates on the behavior of a national or a regional economy as a whole: the totals of goods and services, unemployment and prices. Then there’s a more [...]