Chapter 9 Nuclear Radiation

Slides:

Advertisements

Similar presentations

Chapter 22 – Nuclear Chemistry

Advertisements

7: Atomic and Nuclear Physics 7.3 Nuclear reactions, fission and fusion.

Nuclear Reactions Fission and Fusion.

Nuclear Reactions: AN INTRODUCTION TO FISSION & FUSION Farley Visitors Center.

Chapter 25 Nuclear Chemistry 25.3 Fission and Fusion

1 Nuclear Radiation Nuclear Fission and Fusion Copyright © 2005 by Pearson Education, Inc. Publishing as Benjamin Cummings.

Miss Nelson SCIENCE ~ CHAPTER 12 ENERGY AND MATERIAL RESOURCES.

Nuclear Chemistry Fusion and Fission

Nuclear Chemistry Bravo – 15,000 kilotons. CA Standards.

1 Chapter 9 Nuclear Radiation 9.6 Nuclear Fission and Fusion Copyright © 2005 by Pearson Education, Inc. Publishing as Benjamin Cummings.

Chapter 9 Nuclear Radiation

Nuclear Reactions: AN INTRODUCTION TO FISSION & FUSION Farley Visitors Center.

NUCLEAR FUSION NUCLEAR FISSION. chools/gcsebitesize/scie nce/add_aqa/atoms_rad iation/nuclearact.shtmlhttp:// chools/gcsebitesize/scie.

Chemistry: An Introduction to General, Organic, and Biological Chemistry, Eleventh Edition Copyright © 2012 by Pearson Education, Inc. Chapter 9 Nuclear.

General, Organic, and Biological Chemistry Fourth Edition Karen Timberlake 4.6 Nuclear Fission and Fusion Chapter 4 Nuclear Chemistry © 2013 Pearson Education,

General, Organic, and Biological ChemistryCopyright © 2010 Pearson Education, Inc.1 Chapter 4 Nuclear Chemistry 4.6 Nuclear Fission and Fusion.

Unit 8 Section 2: Nuclear Reactions

Chapter 9 Nuclear Radiation

1 Chapter 9 Nuclear Radiation 9.6 Nuclear Fission and Fusion Copyright © 2009 by Pearson Education, Inc.

Unit 2 – The Atom Nuclear Chemistry Fusion and Fission.

Rāhoroi, 22 Paenga-whāwhā, 2017Rāhoroi, 22 Paenga-whāwhā, 2017

Nuclear Reactions: AN INTRODUCTION TO FISSION & FUSION Farley Visitors Center.

Chapter 9 Nuclear Radiation

7.2 Nuclear Fission and Fusion. Nuclear Fission Why are some elements radioactive? There is an optimal ratio of neutrons to protons 1 : 1 for smaller.

Basic Chemistry Copyright © 2011 Pearson Education, Inc. 1 Chapter 16 Nuclear Radiation 16.6 Nuclear Fission and Fusion.

Introduction to Nuclear Fission and Fusion

Nuclear Reactions: FISSION & FUSION ã Nuclear reactions deal with interactions between the nuclei of atoms ã Both fission and fusion processes deal with.

Nuclear Reactions. Nuclear Symbols Element symbol Mass number (p + + n o ) Atomic number (number of p + )

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

Chapter 10 Fission and Fusion. Fission The splitting of an atomic nucleus into smaller parts. Huge amounts of energy can be produced from a very small.

Nuclear Reactions: AN INTRODUCTION TO FISSION & FUSION Farley Visitors Center.

P3 - Physics Nuclear Fusion & Fission P3 – Physics - Aims  to sketch a labelled diagram to illustrate how a chain reaction may occur.

Fission and Fusion are both nuclear reactions that involve the particles in the nucleus of an atom.

Fission and Fusion They could be described as “Big Bang” and “Bigger Bang”.

 In nuclear fission, large atoms are split apart to form smaller atoms, releasing energy.  Fission also produces new neutrons when an atom splits. 

Physical Science Chapter 18 Section 4. + Nuclear Fission Nuclear fission is the process of splitting a nucleus into several smaller nuclei Fission means.

Fission and Fusion. Nuclear Reactions Two types of nuclear reactions that release energy.  Fission  Fusion.

Nuclear Fission and Fusion

AN INTRODUCTION TO FISSION & FUSION

NUCLEAR CHEMISTRY: Fundamental Concepts, Nuclear Fission & Fusion

Nuclear Energy.

Nuclear Reactions: Fission & Fusion

NUCLEAR FUSION Process of combining two light nuclei to

Nuclear Radiation.

Fission and Fusion of Atomic Nuclei

AN INTRODUCTION TO FISSION & FUSION

Fusion and Fission.

Nuclear Reactions Fission and Fusion.

Chapter 9 Nuclear Radiation

Chapter 5 Energy Resources

Fission vs. Fusion.

Nuclear Energy Fission vs Fusion.

Unit 4 Nuclear Reactions.

THE SUN: Fusion, Fission and Combustion

Nuclear Reactions Fission and Fusion.

FISSION and FUSION Fission Vs. Fusion

NUCLEAR REACTIONS.

Nuclear Chemistry.

Chapter 9 Nuclear Radiation

Nuclear Reactions: FISSION & FUSION.

AN INTRODUCTION TO FISSION & FUSION

Nuclear Energy.

Big 7 - Chapter 6 Nuclear Reactions.

11.3 Nuclear Energy Key Concepts:

AN INTRODUCTION TO FISSION & FUSION

Nuclear Fusion & Fission

Nuclear Energy.

Key areas Nuclear equations to describe radioactive decay, fission and fusion reactions with reference to mass and energy equivalence including calculations.

Should New Zealand remain ‘nuclear power’ free?

AN INTRODUCTION TO FISSION & FUSION

Presentation transcript:

Chapter 9 Nuclear Radiation 9.6 Nuclear Fission and Fusion

Nuclear Fission In nuclear fission, a large nucleus is bombarded with a small particle the nucleus splits into smaller nuclei and several neutrons large amounts of energy are released

Nuclear Fission When a neutron bombards 235U, an unstable nucleus of 236U undergoes fission (splits) the nucleus splits to release large amounts of energy smaller nuclei are produced, such as Kr-91 and Ba-142 neutrons are also released to bombard more 235U nuclei

Nuclear Fission Diagram 1n + 235U 236U 91Kr + 142Ba + 3 1n + energy 0 92 92 36 56 0

Nuclear Fission Chain Reaction In a nuclear chain reaction, the fission of each U-235 atom produces three neutrons that cause the nuclear fission of more and more uranium-235 atoms.

Energy and Nuclear Fission The total mass of the products in this reaction is slightly less than the mass of the starting materials. The missing mass has been converted into energy, consistent with the famous equation derived by Albert Einstein, E = mc2. E is the energy released, m is the mass lost, and c is the speed of light, 3.0  108 m/s. Using this equation, a small amount of mass is multiplied by the speed of light squared, resulting in a large amount of energy. Fission of 1 g U-235 produces same energy as 3 tons of coal.

Learning Check 1n + 235U 137Te + ?X + 2 1n + energy 0 92 52 ? 0 Supply the missing atomic symbol to complete the equation for the following nuclear fission reaction. 1n + 235U 137Te + ?X + 2 1n + energy 0 92 52 ? 0

Solution 1n + 235U 137Te + 97Zr + 2 1n + energy 0 92 52 40 0 Supply the missing atomic symbol to complete the equation for the following nuclear fission reaction. 1n + 235U 137Te + 97Zr + 2 1n + energy 0 92 52 40 0

Nuclear Power Plants In nuclear power plants, fission is used to produce energy control rods in the reactor absorb neutrons to slow and control the chain reactions of fission

Nuclear Fusion Fusion occurs at extremely high temperatures (100 000 000 C) combines small nuclei into larger nuclei releases large amounts of energy occurs continuously in the sun and stars Hydrogen atoms combine in a fusion reactor at very high temperatures.

Learning Check Indicate whether each of the following describes nuclear fission or nuclear fusion. ___ A. A nucleus splits. ___ B. Large amounts of energy are released. ___ C. Small nuclei form larger nuclei. ___ D. Hydrogen nuclei react. ___ E. Several neutrons are released.

Solution Indicate whether each of the following is nuclear fission or nuclear fusion. nuclear fission A. A nucleus splits. nuclear fission and fusion B. Large amounts of energy are released. nuclear fusion C. Small nuclei form larger nuclei. nuclear fusion D. Hydrogen nuclei react. nuclear fission E. Several neutrons are released.

Nuclear Radiation – Concept Map