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Several graphs of the sort occurring commonly in biology are given. How many processes can you map to each graph?
An advanced mathematical exploration supporting our series of articles on population dynamics for advanced students.
Use combinatoric probabilities to work out the probability that you are genetically unique!
Use the interactivity to practise your skills with concentrations and molarity.
First in our series of problems on population dynamics for advanced students.
Third in our series of problems on population dynamics for advanced students.
Can you break down this conversion process into logical steps?
Second in our series of problems on population dynamics for advanced students.
Dip your toe into the fascinating topic of genetics. From Mendel's theories to some cutting edge experimental techniques, this article gives an insight into some of the processes underlying. . . .
See how differential equations might be used to make a realistic model of a system containing predators and their prey.
How many eggs should a bird lay to maximise the number of chicks that will hatch? An introduction to optimisation.
Use the computer to model an epidemic. Try out public health policies to control the spread of the epidemic, to minimise the number of sick days and deaths.
Test your skills at this light-absorbance calculation.
Fifth in our series of problems on population dynamics for advanced students.
Scientists often require solutions which are diluted to a particular concentration. In this problem, you can explore the mathematics of simple dilutions
This is the area of the advanced stemNRICH site devoted to the core applied mathematics underlying the sciences.
A brief introduction to PCR and restriction mapping, with relevant calculations...
This problem opens a major sequence of activities on the mathematics of population dynamics for advanced students.
How would you massage the data in this Chi-squared test to both accept and reject the hypothesis?
Fourth in our series of problems on population dynamics for advanced students.
STEM students at university often encounter mathematical difficulties. This articles highlights the 8 key problems for biologists.
How efficiently can various flat shapes be fitted together?
What 3D shapes occur in nature. How efficiently can you pack these shapes together?
Advanced problems in the mathematical sciences.
Can you fill in the mixed up numbers in this dilution calculation?
Which dilutions can you make using 10ml pipettes and 100ml measuring cylinders?
Find out some of the mathematics behind neural networks.
This is our collection of tasks on the mathematical theme of 'Population Dynamics' for advanced students and those interested in mathematical modelling.
Can you work out how to produce the right amount of chemical in a temperature-dependent reaction?
Here are several equations from real life. Can you work out which measurements are possible from each equation?
Investigate the mathematics behind blood buffers and derive the form of a titration curve.
Can you work out the parentage of the ancient hero Gilgamesh?
In this question we push the pH formula to its theoretical limits.
At what temperature is the pH of water exactly 7?
Sixth in our series of problems on population dynamics for advanced students.
Which exact dilution ratios can you make using only 2 dilutions?
Use the logarithm to work out these pH values
How does the half-life of a drug affect the build up of medication in the body over time?
Which line graph, equations and physical processes go together?
Which dilutions can you make using only 10ml pipettes?
Is the age of this very old man statistically believable?
Which units would you choose best to fit these situations?
When you change the units, do the numbers get bigger or smaller?
bioNRICH is the area of the stemNRICH site devoted to the mathematics underlying the study of the biological sciences, designed to help develop the mathematics required to get the most from your. . . .
Use your skill and knowledge to place various scientific lengths in order of size. Can you judge the length of objects with sizes ranging from 1 Angstrom to 1 million km with no wrong attempts?
Are these statistical statements sometimes, always or never true? Or it is impossible to say?
chemNRICH is the area of the stemNRICH site devoted to the mathematics underlying the study of chemistry, designed to help develop the mathematics required to get the most from your study. . . .
Could nanotechnology be used to see if an artery is blocked? Or is this just science fiction?
Explore the rates of growth of the sorts of simple polynomials often used in mathematical modelling.