Mathematics is biology's next microscope, only better; Biology is mathematics next physics,only better — Cohen, 2004

It argues for the importance of mathematical modeling in biology. The article asserts that mathematics has the potential to revolutionize the field of biology in much the same way that the microscope revolutionized the study of cells. It highlights the ways in which mathematics can be used to understand complex biological systems, such as ecosystems, cells, and even human populations. The authors argue that mathematical models can help researchers make predictions about the behavior of these systems, which can be used to inform scientific research and public policy. This also emphasizes the importance of interdisciplinary collaboration between mathematicians and biologists. By working together, these two fields can develop more accurate and comprehensive models of biological systems, which can help researchers gain new insights and make new discoveries in the field of biology.In summary, the article shows that mathematical modeling is a valuable tool for studying complex biological systems. By using mathematical models, researchers can make predictions about the behavior of these systems, which can inform scientific research and public policy. The article also highlights the importance of interdisciplinary collaboration between mathematicians and biologists in advancing our understanding of biology.

Cohen J. E. (2004). Mathematics is biology's next microscope, only better; biology is mathematics' next physics, only better. PLoS biology, 2(12), e439. https://doi.org/10.1371/journal.pbio.0020439