Presentation is loading. Please wait.

Presentation is loading. Please wait.

Chapter 7 - Radioactivity

Published byEllen Hunt Modified over 5 years ago

Similar presentations

Presentation on theme: "Chapter 7 - Radioactivity"— Presentation transcript:

1 Chapter 7 - Radioactivity
Science 10

2 7.1 Atomic Theory and Radioactive Decay
Natural background radiation exists all around us. Radioactivity is the release of high energy particles or waves. We use radioactive materials for many things: X-rays, radiation therapy and electricity generation are beneficial. High energy particles and waves can do damage to DNA in our cells. When atoms lose high energy particles and waves, ions or even new atoms can be formed. High energy waves and particles are called radiation when they leave the atom.

3 The Electromagnetic Spectrum

4 Some History: Radiation is everywhere, but can be difficult to detect.
Roentgen named X-rays with an “X” 100 years ago because they were previously unknown. Becquerel realized uranium emitted seemingly invisible energy.

5 Marie Curie and her husband Pierre named the energy radioactivity.
Early discoveries of radiation relied on photographic equipment Later, more sophisticated devices such as the Geiger-Müller counter were developed to more precisely measure radioactivity. Radium salts, after being placed on a photographic plate, leave behind the dark traces of radiation.

6 Isotopes are different atoms of the same element, with a different number of neutrons in the nucleus. Changing the # of neutrons changes the mass number Remember: mass # = # protons + # neutrons isotopes still have the same: number of protons / atomic number element symbol

7 Atomic Mass (the decimal #’s)
Atomic mass = average of the mass numbers for all isotopes of an element. If 19.9% of boron atoms have 5 neutrons, 80.1% have 6 neutrons 19.9% have a mass number of 10, and 80.1% have a mass number of 11 (.199 * 10) + (.801*11) = 10.8 atomic mass of boron = 10.8

8 Representing Isotopes
Isotopes are written using standard atomic notation. Chemical symbol + atomic number + mass number. Potassium has three isotopes,

9 Potassium is found in nature in a certain ratio of isotopes
93.2% is potassium-39 1.0% is potassium-40 6.7% is potassium-41 Atomic mass = (.932 x 39) + (.001 x 40) + (.067 x 41) = 39.1

Download ppt "Chapter 7 - Radioactivity"

Similar presentations

Chapter 11 Radioactive Elements.

Chapter 11 Radioactive Elements.
4-5: Radioactive Elements

4-5: Radioactive Elements
RADIOACTIVE DECAY: understand radioactive decay. describe alpha, beta and gamma radiation?

RADIOACTIVE DECAY: understand radioactive decay. describe alpha, beta and gamma radiation?
(c) McGraw Hill Ryerson 2007 7.1 Atomic Theory and Radioactive Decay Natural background radiation exists all around us.  This radiation consists of high.

(c) McGraw Hill Ryerson Atomic Theory and Radioactive Decay Natural background radiation exists all around us.  This radiation consists of high.
MONDAY (c) McGraw Hill Ryerson 2007. JOURNAL PROJECT YOUR JOURNAL WILL BE WORTH ___% OF THIS CHAPTERS GRADE EACH DAY YOU WILL BE REQUIRED TO ANSWER THE.

MONDAY (c) McGraw Hill Ryerson JOURNAL PROJECT YOUR JOURNAL WILL BE WORTH ___% OF THIS CHAPTERS GRADE EACH DAY YOU WILL BE REQUIRED TO ANSWER THE.
(c) McGraw Hill Ryerson 2007. Radiation!!! Diagnose and treat illnesses Kill bacteria and preserve food without chemicals and refrigeration Process sludge.

(c) McGraw Hill Ryerson Radiation!!! Diagnose and treat illnesses Kill bacteria and preserve food without chemicals and refrigeration Process sludge.
Nuclear Chemistry Nuclear Chemistry The study of nuclear reactions and their use in chemistry.

Nuclear Chemistry Nuclear Chemistry The study of nuclear reactions and their use in chemistry.
Radioactivity. Henri Becquerel In 1896, Becquerel observed that uranium compounds emitted a penetrating radiation that passed through paper and affected.

Radioactivity. Henri Becquerel In 1896, Becquerel observed that uranium compounds emitted a penetrating radiation that passed through paper and affected.
7.1 Atomic Theory and Radioactive Decay Natural background radiation exists all around us. Natural background radiation exists all around us. Radioactivity.

7.1 Atomic Theory and Radioactive Decay Natural background radiation exists all around us. Natural background radiation exists all around us. Radioactivity.
7.1 Atomic Theory and Radioactive Decay Natural background radiation exists all around us. Natural background radiation exists all around us. Radioactivity.

7.1 Atomic Theory and Radioactive Decay Natural background radiation exists all around us. Natural background radiation exists all around us. Radioactivity.
Isotopes & Radioactive Decay

Isotopes & Radioactive Decay
Radioactivity Isotopes and the Atomic theory. Radioactivity The release of high-energy particles and rays of energy from a substance caused by changes.

Radioactivity Isotopes and the Atomic theory. Radioactivity The release of high-energy particles and rays of energy from a substance caused by changes.
7.1 Atomic Theory and Radioactive Decay Natural background radiation exists all around us. Natural background radiation exists all around us. Radioactivity.

7.1 Atomic Theory and Radioactive Decay Natural background radiation exists all around us. Natural background radiation exists all around us. Radioactivity.
7.1 Part 1: Radioactivity & Isotopes. Radiation High energy rays and particles emitted by radioactive sources. (most invisible to human eyes) Includes:

7.1 Part 1: Radioactivity & Isotopes. Radiation High energy rays and particles emitted by radioactive sources. (most invisible to human eyes) Includes:
Open Your Textbook to p. 284! 1.How much radiation is a “safe” amount for humans? 2.For how long might the radioactive material stay in this person’s body?

Open Your Textbook to p. 284! 1.How much radiation is a “safe” amount for humans? 2.For how long might the radioactive material stay in this person’s body?
A radioactive isotope is an atom that has a nucleus that is not stable (will change to form a nucleus of a different element). The process by which the.

A radioactive isotope is an atom that has a nucleus that is not stable (will change to form a nucleus of a different element). The process by which the.
Nuclear Radiation Prentice-Hall Chapter 25.1 Dr. Yager.

Nuclear Radiation Prentice-Hall Chapter 25.1 Dr. Yager.
Nuclear Chemistry Chapter 25. Nuclear Reactions Occur when nuclei emit particles and/or rays. Atoms are often converted into atoms of another element.

Nuclear Chemistry Chapter 25. Nuclear Reactions Occur when nuclei emit particles and/or rays. Atoms are often converted into atoms of another element.
Atomic Theory and Radioactive Decay

Atomic Theory and Radioactive Decay
7.1 Atomic Theory and Radioactive Decay

7.1 Atomic Theory and Radioactive Decay

Similar presentations

Ads by Google