Presentation is loading. Please wait.

Presentation is loading. Please wait.

Radioactive Dating Chapter 7 Section 3.

Published byAmberly Goodman Modified over 8 years ago

Similar presentations

Presentation on theme: "Radioactive Dating Chapter 7 Section 3."— Presentation transcript:

1 Radioactive Dating Chapter 7 Section 3

2 What Is Radioactive Decay?
Most elements do not change. But some elements can break down (decay) over time. When they decay, they release particles and energy in a process called Radioactive Decay. During radioactive decay, the atoms of one element break down to form atoms of another element.

3 Half - Life The rate of decay of each radioactive element never changes. The time it takes for HALF of the radioactive atoms to decay is called the Half Life.

4 Questions: 1. What happens to the atoms of the decaying element?
A. The atoms break down to form atoms of a different element 2. What else is produced during the decay process? A. Particles and energy 3. After 2 half-lives, how much of the radioactive element remains? A. 25% 4. After 3 half-lives, how much of the radioactive element remains? A. 12.5%

5 What Is Radioactive Dating?
Radioactive elements occur naturally in igneous rocks. Scientists use the date of decay to calculate the rock’s age. Determining Absolute Ages- Scientists first determine the amount of radioactive element in a rock. Then they compare that amount with the amount of the stable element into which the radioactive element decays. Potassium-Argon Dating- Often scientists use potasium-40 to date rocks. It decays to argon-40 and has a half-life of 1.3 billion years. Its very long half-life is useful  Carbon -14 Dating- After an organism dies, the carbon-14 in its body decays and changes into nitrogen-14. To determine the age, scientists measure the amount of carbon-14 that is left. It has a short half-life (5,730 yrs)so not useful if sample is older than 50,000 yrs and its not found in most rocks 

6 Questions: 1. What is the first step scientists take in radioactive dating? A. Measuring amount of radioactive elements in a rock 2. What do they do next? A. Compare that amount with the amount of new, stable element being formed from the first element’s decay 3. What is an atom? A. smallest part of an element that has all properties of that element 4. What is the half-life for carbon-14? A. 5,730 yrs 5. Why is Potassium-40 more useful in dating rocks than Carbon-14? A. It has a longer half-life and it is found in most rocks

Download ppt "Radioactive Dating Chapter 7 Section 3."

Similar presentations

Finding a rock’s birthday

Finding a rock’s birthday
8.3 Radioactive Dating.

8.3 Radioactive Dating.
8.3 Radioactive Dating 7.4.d Students know that evidence from geologic layers and radioactive dating indicates Earth is approximately 4.6 billion years.

8.3 Radioactive Dating 7.4.d Students know that evidence from geologic layers and radioactive dating indicates Earth is approximately 4.6 billion years.
Radioactive Dating Section 10.3.

Radioactive Dating Section 10.3.
Absolute-Age Dating Chapter 21.3.

Absolute-Age Dating Chapter 21.3.
Section 8-3 Radioactive Dating. Intro To Matter Elements – the simplest form of matter (i.e. Hydrogen (H) or Oxygen (O) – Atoms – the smallest particle.

Section 8-3 Radioactive Dating. Intro To Matter Elements – the simplest form of matter (i.e. Hydrogen (H) or Oxygen (O) – Atoms – the smallest particle.
Absolute Dating Chapter 3, Sec.3. Process to find the approximate age of rocks or fossils.

Absolute Dating Chapter 3, Sec.3. Process to find the approximate age of rocks or fossils.
Page 334 Radioactive Dating

Page 334 Radioactive Dating
Absolute Dating of Rocks and Strata

Absolute Dating of Rocks and Strata
Absolute Dating : A Measure of Time

Absolute Dating : A Measure of Time
Section 1: What is Radioactivity?

Section 1: What is Radioactivity?
Goal:  I will be able to explain what relative and absolute age are and how we determine them.  I will be able to explain the Law of Superposition, including.

Goal:  I will be able to explain what relative and absolute age are and how we determine them.  I will be able to explain the Law of Superposition, including.
Absolute Dating Chapter 7 Lesson 2.

Absolute Dating Chapter 7 Lesson 2.
Geologic History: Absolute Dating Unit 6 Absolute Age.

Geologic History: Absolute Dating Unit 6 Absolute Age.
Unit 2 Lesson 3 Absolute Dating

Unit 2 Lesson 3 Absolute Dating
Unit 7 Lesson 3 Absolute Dating

Unit 7 Lesson 3 Absolute Dating
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.
Determining Absolute Time.  Absolute Time: numerical time using a specific units like years  Isotopes: Form of an element with more or fewer neutrons.

Determining Absolute Time.  Absolute Time: numerical time using a specific units like years  Isotopes: Form of an element with more or fewer neutrons.
(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.

Similar presentations

Ads by Google