Nuclear Fission 6B Cheng Pui Ling (7) Tsang Wai Man(23)

Slides:

Advertisements

Similar presentations

Nuclear Power Plants. Nuclear Power Plant Turbine and Generator Spinning turbine blades and generator Boiling water Steam.

Advertisements

Transmutations involve more than just the conversion of one element into another—they also involve the conversion of mass into energy. Nuclear energy released.

Nuclear Power. Source: Uranium-235 Process: – An unstable uranium nucleus is bombarded with a neutron and splits into two smaller nuclei and some neutrons.

Fundamental Forces of the Universe

NUCLEAR FUSION & NUCLEAR FISSION Noadswood Science, 2012.

Nuclear Energy Nuclear Reactions Nuclear Fission / Nuclear Fusion Harnessing the Power of the Nucleus.

Chapter 25 Nuclear Chemistry 25.3 Fission and Fusion

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

Transmutation (Objective 25

Prentice Hall © 2003Chapter 21 Chapter 21 Nuclear Chemistry CHEMISTRY The Central Science 9th Edition.

Nuclear / Subatomic Physics Physics – Chapter 25 (Holt)

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 Targets: Explain how the nuclear fuel cycle relates to the true cost of nuclear energy and the disposal of nuclear waste. Describe the issues.

Chapter 16 – Nuclear Energy Alternate to Fossil Fuels.

Alternative Energy Sources

Radiation, nuclear fusion and nuclear fission

Nuclear Energy Energy – It’s Everywhere!. 2 Nuclear Energy Atoms are small particles that make up all matter. Each atom is made of outer electrons and.

Nuclear Fission and Fusion

Nuclear Fission & Fusion. History: Hahn & Strassman (1939) Bombarded Uranium-235 samples with neutrons expecting the Uranium-235 to capture neutrons Instead,

Nuclear Physics By: Cheung Kwok Tin Andy (2) Lai Chin Kei Jacky (6) Lam Chi Pak Kenneth (7)

23.4 Nuclear energy NUCLEARNUCLEAR POWERPOWER Millstone Station.

23.4 Nuclear energy NUCLEARNUCLEAR POWERPOWER Millstone Station.

Section 7.3. The process in which the nucleus changes gains or releases particles and energy The stronger the bond the more energy associated with it.

Integrated Science Chapter 25 Notes

Nuclear Chemistry L. Scheffler. The Nucleus The nucleus is comprised of the two nucleons: protons and neutrons. The number of protons is the atomic number.

 Marie Curie ( ) and Pierre Curie ( ) were able to show that rays emitted by uranium atoms caused fogging in photographic plates. ◦ Marie.

Radioactivity and Nuclear Reactions. How Did It All Happen? Radioactivity 4.16.

Nuclear Fission & Fusion Objectives: Describe what happens in a nuclear chain reaction. Explain the use of water in the storage of spent fuel rods. Distinguish.

Nuclear Chemistry.

S A C C O N E A P E S Chapter 11: Nuclear Energy

Nuclear Energy Chapter 12 Section 3. Standard S 6.6.a Students know the utility of energy sources is determined by factors that are involved in converting.

Fission and Fusion Nuclear Fission

NUCLEAR CHANGES CHAPTER 7

Chapter 22 Nuclear Chemistry. Sect. 22-1: The Nucleus Nucleons – collective name for protons & neutrons Nuclide – an atom Notation: either radium – 228.

Nuclear Power. How does nuclear power work? Fission produces heat Heat boils water making steam Steam turns a turbine Turbine produces electricity.

Nuclear Power. Locations of Nuclear Power plants in the US.

Nuclear Energy. A. What does radioactive mean? 1. Radioactive materials have unstable nuclei, which go through changes by emitting particles or releasing.

Nuclear Radiation > Nuclear Radiation & Transformations.

Nuclear Power Plants. Nuclear Power Plant Turbine and Generator Spinning turbine blades and generator Boiling water Steam.

Nuclear Power. Fission Uranium-235 Plutonium-239 Neutron 10n10n 10n10n 10n10n Strontium-90 Xenon-144.

III. Nuclear Power. A. Reactions and Sources 1. Uses energy released by nuclear fission- the splitting of the nucleus of an atom 2. Nucleus is hit with.

Ch. 16 Environmental Science.  All matter is made of atoms  Atoms have Proton Electron Neutrons Nucleus contains protons and neutrons has most of the.

Basic Concepts of Nuclear Physics Part II By Benjamin Thayer PHY3091.

Unit 1 Physics Detailed Study 3.3 Chapter 12.3: Nuclear Fissions Reactors.

© Copyright Pearson Prentice Hall Slide 1 of 20 Fission and Fusion of Atomic Nuclei The sun is not actually burning. If the energy given off by the sun.

Chapter 11 Nuclear Power  Energy released in combustion reactions comes from changes in the chemical bonds that hold the atom together.  Nuclear Energy.

The atom orbiting electrons Nucleus (protons and neutrons)

Nuclear fission Nuclear fission: heavy nuclei split into two smaller parts in order to become more stable proton neutron Kr-90 nucleus U-235 nucleus energy.

Chain Reactions The Fission Reactor Chain reactions One of the products of nuclear fission reactions are neutrons. But these are free to hit other nuclei.

Ch. 28 Nuclear Chemistry C. Smith. I. Nuclear Radiation A. Radioactivity 1. Radioisotopes are unstable isotopes that have unstable nuclei. 2. They gain.

AQA A2 Physics A Nuclear Physics Section 15 Fission.

Intro. Into Nuclear Energy And you. What are the fundamental forces of the Universe??? Gravitational Force (interaction of massive bodies) Electromagnetic.

Alpha Radiation (α)  A helium nucleus of 2 protons and 2 neutrons, mass=4, charge= +2  4 2 He  Low penetration stopped by a few cm of air or thin sheet.

25.3 Fission and Fusion > 1 Copyright © Pearson Education, Inc., or its affiliates. All Rights Reserved. Chapter 25 Nuclear Chemistry 25.1 Nuclear Radiation.

Chapter 25: Nuclear Chemistry

NUCLEAR FISSION. Fission = splitting of nuclei Nuclei split when hit with a neutron Nucleus breaks into: * 2 large fragments & * 2-3 neutrons Fission.

1) How is the mass number calculated (2).

Chapter 25 Nuclear Chemistry 25.3 Fission and Fusion

Nuclear fission: lecture 9.2 B

Fission and Fusion of Atomic Nuclei

Nuclear Fission and Fusion

ENERGY SOURCES Nuclear Energy

alpha beta gamma electron energy electron energy electron positive

Nuclear Energy Fission vs Fusion.

NUCLEAR CHEMISTRY NUCLEONS – The particles found in the nucleus

Nuclear Power Plants.

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

Nuclear Power Plants.

Fission and Fusion.

Presentation transcript:

Nuclear Fission 6B Cheng Pui Ling (7) Tsang Wai Man(23)

An unstable nucleus may split up into a few large pieces. This is called nuclear fission.

Opposing Force Electrical repulsion among the protons tends to split the nucleus apart. Surface tension keeps a nucleus together Electrical repulsion Surface tension

Fission Process What should we use to hit U-239 to break apart? Electrons : don’t interact strongly with nucleus Protons : electrically repelled & cannot approach the U-235 nucleus Neutron : not electrically repelled & interact strongly with the nucleus.

Fission Process –step 1 Neutron is captured by U-235 & forms a compound nucleus of U- 236

Fission Process – step 2 Compound nucleus is not stable, so it splits up, usually into 2 pieces.

Fission Process – step 3 To eject some neutrons

Fission Process – step 4 No. of n is still too large & thus it is necessary to emit a series of B decays.

The importance of nuclear fission large amount of energy released although one neutron is needed to a a a start the reaction, there are more a a neutrons at the end.

Chain Reaction Controlling a nuclear chain reaction depends on controlling the no. of neutrons available.

3 factors have to be considered: Escape Absorption Moderation

Escape there must be enough U-235, both in concentration & in terms of total amount. It the amount of U-235 is too small, the neutrons will escape from the reacting volume. They will be lost & cannot keep a chain reaction going.

Absorption Neutrons may be absorbed by other nuclei present without causing fission. Then they will be lost.

Moderation Only slow neutrons have a high probability of being captured by U-235 & start fission. Otherwise, the neutrons emitted during fission are fast neutrons. So they must be slowed down, or moderated. ( water works very will as a moderator )

Fission Reactors Make use of energy released in fission to generate electricity. Natural uranium contains only 0.7% U-235 The rest is U-238

So natural uranium is first treated to increase the U-235 concentration to 3% The uranium is then made in uranium dioxide ( U 2 O ) in the form of small pellets which are assembled in the form of rods & encased in zirconium alloy tubes.

There are 3 safety barriers to prevent the escape of radioactive material into the environment.

The fuel is encased in the zirconium tubes which can withstand very high temperatures & pressures. -They seal the fission material released from the fuel & prevent it from escaping into the water in the primary circuit.

The reactor vessel has an alloy steel wall of about 20cm thickness. The steel piping of the primary circuit is about 7cm thick. The whole primary circuit is placed inside a containment building founded on a layer of bedrock.

Social considerations harmful radiation radioactive wastes produced in fission reactions