1. Rates of Growth & Decay

3. Example (1) - a The size of a colony of bacteria was 100 million at 12 am and 200 million at 3am. Assuming that the relative rate of increase of the colony at any moment is directly proportional to its size ( the rate of the growth of the bacteria population is constant), find: 1. The size of the colony at 3pm. 2. The time it takes the colony to quadruple in size. 3. Find the (absolute) growth rate function 4. How fast the size of the colony was growing at 12 noon.

4. Solution

6. Example (1) - b The population of a town was 100 thousands in the year 1997 and 200 thousands in the year 2000. Assuming that the rate of increase of the population at any moment is directly proportional to its size ( the relative rate of the growth of the population is constant), find: 1. The population of the town in 2012. 2. The number of years it takes for the population to quadruple. 3. Find the (absolute) growth rate function 4. How fast the population was growing in 2012.

7. Solution

9. Example (1) – a* The size of a colony of bacteria was 100 million at 12 am and 400 million at 2am. Assuming that the rate of increase of the colony at any moment is directly proportional to its size, find: 1. The size of the colony at 1am. 2. The time it takes the colony to reach 800 million.

10. Solution

12. Example (1) - c A loan shark lends money at an annual compound interest rate of 100%. An unfortunate man borrowed 1000 Riyals at the beginning of 2014. 1. How much will the loan reach in 2015 ( the end of 2014)? 2. When will the loan reach reach 8000 Riyals?

13. Solution

14. Example (1) - d The rate of consumption of energy for an industrial Gulf zone at the beginning of 2000 was 1000 megawatt. The rate was expected to increase at annual growth rate of 100%. Find: 1. The function that gives he the rate of energy consumption. 2. The total energy used during 2004. 3. The function that gives the total cumulative amount of energy used between 2000 and any time t in years)

15. Solution

17. Example (2) - a A mass of a radioactive element has decreased from 200 to 100 grams in 3 years. Assuming that the rate of decay at any moment is directly proportional to the mass( the relative rate of the decay of the element is constant), find: 1. The mass remaining after another15 years. 2. The time it takes the element to decay to a quarter of its original mass. 3. The half-life of the element 3. Find the (absolute) growth decay function 4. How fast the mass was decaying at the twelfth year.

18. Solution

20. Example (2) – a* A mass of a radioactive element has decreased from 1000 g to 999 grams in 8 years and 4 months. Assuming that the rate of decay at any moment is directly proportional to the mass( the relative rate of the decay of the element is constant), find the half-life of he element.

21. Solution

23. Note We can find the half-life T 1/2 in terms of the constant k or the latter in terms of the former ( T 1/2 = ln2/k Or k = ln2 / T 1/2 ) and use that to find k when T 1/2 is known or find T 1/2 when k is known.

24. Deducing the Relationship Between half-life T 1/2 and the constant k

25. Carbon Dating Carbon (radiocarbon) dating is a radiometric dating technique that uses the decay of carbon-14 (C-14 or 14 C) to estimate the age of organic materials or fossilized organic materials, such as bones or wood. The decay of C-14 follows an exponential (decay) model. The time an amount of C-14 takes to decay by half is called the half-life of C-14 and it is equal about 5730 years. Measuring the the remaining proportion of C-14, in a fossilized bone, for example to the amount known to be in a live bone gives an estimation of its age.

26. Example (2) - b It was determine that a discovered fossilized bone has 25% of the C-14 of a live bone. Knowing that the half-life of C- 14 is approximately 5730 years and that its decay follows exponential model, estimate the age of the bone. Solution:

28. Pharmacokinetics Pharmacokinetics (PK) is a branch of pharmacology concerned with knowing what happens to substances ( such as drugs, food or toxins) administered to a living body. This includes understanding the process by which such substance is assimilated, eliminated or affected by the body. With some exceptions ( such as in the case of liquor) the absorption of drugs follows an exponential (decay) model.

29. Example (2) - c Two doses of 32 mg of a drug with a half-life of 16 hours were administered to a patient. The second was administered 64 hours after the first. a. How long would it take the drug to reach 12.5% of its first dose. B. How long would it take the drug after the second dose to reach 8.5 mg

30. Solution