Presentation is loading. Please wait.

Presentation is loading. Please wait.

Unit 1: Radio Activity Lesson 2: Half-Life

Published byCaitlin Mathews Modified over 6 years ago

Similar presentations

Presentation on theme: "Unit 1: Radio Activity Lesson 2: Half-Life"— Presentation transcript:

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

Download ppt "Unit 1: Radio Activity Lesson 2: Half-Life"

Similar presentations

7.2 Half-life.

7.2 Half-life.
It can be difficult to determine the ages of objects by sight alone. e.g. It can be difficult to tell which students in a classroom are oldest. Radioactivity.

It can be difficult to determine the ages of objects by sight alone. e.g. It can be difficult to tell which students in a classroom are oldest. Radioactivity.
By: HULK And Bruce Banner

By: HULK And Bruce Banner
HALF-LIFE Chapter 7.2 – BC Science 10.

HALF-LIFE Chapter 7.2 – BC Science 10.
Absolute Dating of Rocks and Strata

Absolute Dating of Rocks and Strata
Radioactivity Lab Prompt

Radioactivity Lab Prompt
Absolute Dating : A Measure of Time

Absolute Dating : A Measure of Time
Absolute Dating Chapter 7 Lesson 2.

Absolute Dating Chapter 7 Lesson 2.
1 Radioactivity and Half-Life. 2 Radioactivity An unstable atomic nucleus emits a form of radiation (alpha, beta, or gamma) to become stable. In other.

1 Radioactivity and Half-Life. 2 Radioactivity An unstable atomic nucleus emits a form of radiation (alpha, beta, or gamma) to become stable. In other.
7.2 Half-Life the time it takes for half of a radioactive sample to decay is a constant rate (always the same half life for each element) Example: Strontium-90.

7.2 Half-Life the time it takes for half of a radioactive sample to decay is a constant rate (always the same half life for each element) Example: Strontium-90.
7.2 Half-life.

7.2 Half-life.
Radioisotopes, and their use in “dating” rocks. Radioactive Decay Certain isotopes of some elements are not stable. They naturally change (decay) over.

Radioisotopes, and their use in “dating” rocks. Radioactive Decay Certain isotopes of some elements are not stable. They naturally change (decay) over.
(c) McGraw Hill Ryerson 2007 7.2 Half-life It can be difficult to determine the ages of objects by sight alone.  Radioactivity provides a method to determine.

(c) McGraw Hill Ryerson Half-life It can be difficult to determine the ages of objects by sight alone.  Radioactivity provides a method to determine.
(c) McGraw Hill Ryerson 2007 7.2 Half-life It can be difficult to determine the ages of objects by sight alone.  Radioactivity provides a method to determine.

(c) McGraw Hill Ryerson Half-life It can be difficult to determine the ages of objects by sight alone.  Radioactivity provides a method to determine.
Tips on Dating. Why Date? Different methods of dating will help determine the actual age of a layer of rock or a fossil Scientists look at how much radioactive.

Tips on Dating. Why Date? Different methods of dating will help determine the actual age of a layer of rock or a fossil Scientists look at how much radioactive.
RADIOCARBON DATING Students will: understand the half-life of an isotope.

RADIOCARBON DATING Students will: understand the half-life of an isotope.
A Fossil.  Any method of measuring the age of an event or object in years.

A Fossil.  Any method of measuring the age of an event or object in years.
Carbon Dating The age of a formerly living thing can be determined by carbon dating As soon as a living organism dies, it stops taking in new carbon.

Carbon Dating The age of a formerly living thing can be determined by carbon dating As soon as a living organism dies, it stops taking in new carbon.
Chapter 7.2 – Half life Science 10. Types of decay Alpha Alpha.

Chapter 7.2 – Half life Science 10. Types of decay Alpha Alpha.
Radiometric Dating Chapter 18 Geology. Absolute Dating Gives a numerical age Works best with igneous rocks difficult with sedimentary rocks Uses isotopes.

Radiometric Dating Chapter 18 Geology. Absolute Dating Gives a numerical age Works best with igneous rocks difficult with sedimentary rocks Uses isotopes.

Similar presentations

Ads by Google