Isotopes.

Slides:

Advertisements

Similar presentations

Chapter All matter is made up of atoms. Parts of an atom: 1. Nucleus – the center of an atom. Proton – Positively charged. ( + ) Neutron – have.

Advertisements

THE FUTURE OF FUKUSHIMA Can nuclear energy overcome its bad rap? CHAPTER 27 NUCLEAR FUTURE.

Section 3.  Inside the nucleus of the atom contains protons and neutrons.  Nuclear reactions involves tremendous amounts of energy.  Two types of nuclear.

Nuclear energy Nuclear energy = energy that holds together protons and neutrons within the nucleus of an atom We harness this energy by converting it to.

 Atomic Number  Protons + Neutrons = Atomic Mass.

1 Chapter 9 Nuclear Radiation 9.1 Natural Radioactivity Copyright © 2009 by Pearson Education, Inc.

Radiation and the Environment Nuclear Changes. Fission vs. Fusion.

Nuclear Reactions Fission and Fusion. FISSION The splitting of an atomic nucleus into 2 smaller particles. Animation.

7.1 Part 1: Radioactivity & Isotopes. Radiation High energy rays and particles emitted by radioactive sources. (most invisible to human eyes) Includes:

BY ALEX DONAHUE, CAROLINE BARLOW, AND JACQUELYN O’REILLY Nuclear Power.

Nuclear Power Nuclear Physics Definition of isotope –Atomic mass –Atomic number Behaviors of isotopes Half life.

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.

20-4 Radioactive Elements. Nuclear Reaction  Involve the particles in the nucleus of atoms  Can change one element into a new element if the number.

Chapter 9.2 Nuclear Radiation.

Section 5: Radioactive Elements

Nuclear fission: lecture 9.2 B

Parts of the Atom PSSA: A/S8.C.1.1.

Atomic Energy 3U Physics.

25.3 Fission and Fusion of Atomic Nuclei

By: Emily McGuire, Daysha McMullen, Ja’Bria Coleman, India Lockhart

9.5 Nuclear Power Although nuclear power does not come from a fossil fuel, it is fueled by uranium, which is obtained from mining and is non-renewable.

Chapter 5 Energy Resources

E = mc2 If you can’t explain it simply, you haven’t learned it well enough. Einstein.

Triple Disaster! Japan 2011.

Nuclear Chemistry Section 4.4, Chapter 24.

Chapter 4: Atomic Energy

Chapter 4: Atomic Energy

Nuclear Reactions.

Energy of today and tommorrow

Nuclear Chemistry Physical Science.

Chapter 9 Nuclear Radiation

What does the nuclear scientist do in his spare time?

The positively charged particle located in the nucleus of an atom

Chapter 12 Nuclear Energy

Radioactive Decay Section 21.2.

Nuclear chemistry.

14.4 Chemical vs. Nuclear Reactions

Nuclear Chemistry.

Nuclear Energy Fission vs Fusion.

Copyright © Cengage Learning. All rights reserved Review Atomic Number (Z) – number of protons Mass Number (A) – sum of protons and neutrons Copyright.

Isotopes & Radioactive Decay

AKA Radioactive DECAY or NUCLEAR DECAY

Nuclear Chemistry.

Radioactive Decay, Fission, and Fusion

Chernobyl Nuclear Power Plant

AKA Radioactive DECAY or NUCLEAR DECAY

CHAPTER 24 Nuclear Energy

EQ: What is radioactive decay?

Chapter 9 Nuclear Radiation

Nuclear Chemistry.

Radioactivity If a nucleus is radioactive it is unstable and will decay (breakdown), which causes the nucleus to change and release energy as radiation.

Bell Work: Radioactivity

Nuclear Chemistry Chapter 21.

PHYSICS REVIEW HOW DOES A FOSSIL FUELLED POWER STATION GENERATE ELECTRICITY? Power station image -

Nuclear Chemistry.

Radioactivity radiation.

Isotopes and Nuclear Chemistry

Unit 4 – Nuclear Reactions

Nuclear Radiation.

More about Elements.

Transmutation Reactions

11.2 Nuclear Energy Unit 11: Energy May 25, 2009 Unit 11: Energy.

Unit 4 – Nuclear Reactions

Chemistry Unit Two, Day Four.

Presentation transcript:

Isotopes

Fukushima disaster May 11, 2011 Fukushima nuclear power plant damaged by tsunami

Chernobyl Disaster April 26, 1986 Melt down inside the reactor in Unit #4 of the Chernobyl Nuclear Power Plant The steam explosion and fire blew the 1000-ton roof off the building and allowed radioactive material to escape (Cs-137, I-131, and Sr-90)

Thyroid cancer Radioactive iodine deposited in pastures  eaten by cows  cow milk drunk by children Radioactive iodine to accumulated in the thyroid Thyroid produces hormones that regulate your heart rate, blood pressure, body temperature and weight

Nuclear power Nuclear fission = Process of splitting atoms Fission produces free neutrons and protons and release large amount of energy Marble demo

Isotopes Isotopes = have nucleus with the same number of protons but different number of neutrons Therefore, isotopes have different mass numbers Unstable atoms are radioactive, nucleus can decay or change by emitting radiation

Average atomic mass Average atomic mass of an atom is found by averaging the natural abundance of its isotopes E.g. 35/17 Cl (75%) and 37/17 Cl (25%) (0.75 x 35) + (0.25 x 37) = 35.5 amu