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Unit 1: Radio Activity Lesson 2: Half-Life

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1 Unit 1: Radio Activity Lesson 2: Half-Life
Science 10 Unit 1: Radio Activity Lesson 2: Half-Life

2 Objectives By the end of the lesson you should be able to:
Describe what a half-life is and how it is used Describe how isotope-pairs are used (ex. Potassium 40)

3 Half-life It can be difficult to determine the ages of objects by sight alone. Radioactivity provides a method to determine age by measuring relative amounts of remaining radioactive material to stable products formed. Carbon dating measures the ratio of carbon-12 and carbon-14. Stable carbon-12 and radioactive carbon-14 exist naturally in a constant ratio. When an organism dies, carbon-14 stops being created and slowly decays. Carbon dating only works for organisms less than years old.

4 Using carbon dating, these cave paintings of horses, from France, were drawn 30 000 years ago.

5 The Rate of Radioactive Decay
Half-life measures the rate of radioactive decay. Half-life = time required for half of the radioactive sample to decay. The half-life for a radioactive element is a constant rate of decay. Strontium-90 has a half-life of 29 years. If you have 10 g of strontium-90 today, there will be 5.0 g remaining in 29 years. Decay curves show the rate of decay for radioactive elements. The curve shows the relationship between half-life and percentage of original substance remaining.

6 The decay curve for Strontium-90

7 Common Isotope Pairs There are many radioisotopes that can be used for dating. Parent isotope = the original, radioactive material Daughter isotope = the stable product of the radioactive decay The rate of decay remains constant, but some elements require one step to decay while others decay over many steps before reaching a stable daughter isotope. Carbon-14 decays into nitrogen-14 in one step. Uranium-235 decays into lead-207 in 15 steps. Thorium-235 decays into lead-208 in 10 steps.

8 Isotope Pairs Chart Found on in your Databook on pg 4

9 The Potassium-40 Clock Radioisotopes with very long half-lives can help determine the age of very old things. The potassium-40/argon-40 clock has a half-life of 1.3 by. Argon-40 produced by the decay of potassium-40 becomes trapped in rock. Ratio of potassium-40 : argon-40 shows age of rock.

10 Take the Section 7.2 Quiz

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