Nuclear Controversy By: Devin Pittman. Atomic Questions How could something be so controversial If it`s dangerous why do we use it and if not we don`t.

Slides:

Advertisements

Similar presentations

Nonrenewable Energy Nuclear Energy. Nuclear energy- released by a nuclear fission or fusion reaction. –Nuclear force 1,000,000 times stronger than chemical.

Advertisements

Nuclear Reactions PS 2.6 – 2.7. Fission vs. Fusion Nuclear Reactions occur within a heavy atom (not between 2 or more atoms) ex. uranium 1. Fission: when.

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

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

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

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 Power Plants. What do nuclear power plants release? Energy! How do these power plants provide us with energy? Energy is collected from the nucleus.

Nuclear Fission & Fusion Nuclear Fusion - Energy released when two light nuclei combine or fuse However, a large amount of energy is required to start.

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.

Reading Qs 1.List the different reasons why these nuclear accidents occurred. 2.Select the one that interests you the most and explain why.

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.

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

Nuclear Energy.

 Nuclear Energy By Diana Par and Brennan Schultz.

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

26/05/2016 Nuclear Fission and Fusion L/O :- To know the process of nuclear fission and fusion.

NUCLEAR FUSION & NUCLEAR FISSION Noadswood Science, 2012.

Nuclear Reactions Powering the Sun since 4.6 Billion B.C.

For each atom, in its natural state, the number of electrons and the number of protons is equal. This number may or may not be the same as the number.

Nuclear Energy How will it affect you?. Nuclear Energy: What is it? n Fission –the splitting of an atom by a neutron, resulting in two or more neutrons.

Nuclear Power Physics /7/03. Outline  The Nucleus  Radioactivity  Fission  Fusion  Nuclear Weapons  Nuclear Power.

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.

After completing this topic you should be able to : State elements are created in the stars from simple elements by nuclear fusion. All naturally occurring.

Neeraj Dhiman. DEFINITION Nuclear physics is the field of physics that studies the building blocks and interactions of atomic nuclei.

Energy From the Atom. Or… Energy From the Atom Energy from the Atom Energy can be produced from either splitting atoms or combining them. Splitting atoms.

24-3: Harnessing the Nucleus. Per gram, average energy produced by… Chemical reaction Nuclear reaction 50 kJ 1,000,000 kJ.

Nuclear Energy Environmental Science Mrs. Naples.

 What is radioactivity?  What types of particles are emitted by radioactive substances?  What is radioactivity used for?  What dangers are associated.

In your notes… What are the four ways we harness solar energy? What are the limitations of solar energy (at least 2)? What approach should we take with.

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

Mrs. Anderson By: Shamira Wade, Shannon Hammock, and Ryan Evans.

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

Radioactivity Nuclear Fission and Fusion. Definition: breaking an unstable nucleus into two smaller nuclei Basic formula Element+ Neutron → + 3 neutronsSmaller.

Nuclear Power Plant How A Nuclear Reactor Works.

Nuclear Power. Generators Generators produce electricity by spinning a coil of wire (solenoid) in front of permanent magnets. The part of a generator.

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

Nuclear Power. Nuclear Fuel  Primarily involve nuclear fission  Fuel: typically is uranium-235 Must be enriched, as the most abundant isotope of uranium.

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

Energy Nuclear Fusion, Nuclear Fission, Combustion and Solar Radiation.

Nuclear Fusion and Fission

MEASURING RADIATION Large doses of radiation are harmful to living tissue. Radiation can be measured with a Geiger counter – a device that measures radioactivity.

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

11.3 Nuclear Fusion and Fission. Nuclear Fission The splitting of the nucleus of a large atom into two or more smaller nuclei. Involves releasing tremendous.

Science A Physics – P1 Science A Physics – P1 Topic 1 : Electricity Generation - 1 Topic 1 : Electricity Generation - 1.

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

Nuclear Fission and Fusion

Nuclear Reactions: Fission & Fusion

Fusion and Fission.

Burning … is a chemical reaction: fusion with oxygen Coal:

Chapter 9 Nuclear Radiation

Chapter 5 Energy Resources

MEASURING RADIATION Large doses of radiation are harmful to living tissue. Radiation can be measured with a Geiger counter – a device that measures radioactivity.

Nuclear Power General Notes about the slides

Vocabulary Chapter 5: Lesson 1

THE SUN: Fusion, Fission and Combustion

NUCLEAR CHEMISTRY Unit 1 Notes.

Nuclear Fusion vs. Nuclear Fission

FISSION and FUSION.

Fission and Fusion Chp 24.

Intro. Into Nuclear Energy

Burning … is a chemical reaction: fusion with oxygen Coal:

Fuel Combustion Fossil Fuel Hydrocarbon Energy Transformation

Nuclear Fusion vs. Nuclear Fission

Nuclear Fusion & Fission

Nuclear Energy.

Presentation transcript:

Nuclear Controversy By: Devin Pittman

Atomic Questions How could something be so controversial If it`s dangerous why do we use it and if not we don`t we more of it These are frequently asked but the answer is in its history and the invention its self

Brighter side The idea nuclear energy is thought of as a weapon or lethal radiation comes to mind. You would be surprised at how many reactors there really are. In fact every living thing on this planet uses nuclear energy because the Sun is nuclear fusion at its best.

Solar nukes The Sun is not “fire” because that is combustion which requires oxygen. In fact it is nuclear fusion ran by gravity. The difference between nuclear reactions on Earth and Stars is on earth we need different materials i.e. uranium and plutonium were as stars use fusion which requires hydrogen.

Controversy The reason nuclear energy`s controversy is the events at Chernobyl, Three Mile Island and Fukushima. Before, nuclear energy was publicly available there had already been two wartime uses as a weapon not to mention this frequent nuclear test of the Soviets and the Americans.

What`s a melt down A meltdown can occur when too much atomic energy is released resulting in a relatively small explosion releasing massive amounts of nuclear radiation. This is why fission has made itself constantly unstable. In a simple way of putting it fission is just smashing and small explosion as a result.

What prevents a meltdown A series of cooling tubes and water can easily keep a reactor cool. If a cooling tube stops cooling then the reactor can easily over heat and explode. That’s why there are backup coolers instead of one tube. Many people want to stop using fission and start using fusion not only because it produces more energy its cheaper and it also can not meltdown.