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

Slides:

Advertisements

Similar presentations

Nuclear Fission and Fusion

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.

Chapter 25 Nuclear Chemistry 25.3 Fission and Fusion

SPS3 Students will distinguish the characteristics and components of radioactivity.

Nuclear Chemistry Fusion and Fission

Nuclear Fission and Fusion

Nuclear Energy Radioactivity and Half-Life FissionFusion.

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.

Unit 2 – The Atom Nuclear Chemistry Fusion and Fission.

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

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 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.

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

 It can be used in 2 forms  The first form is in the physics: where we can use this formula to find out the nuclear energy: N= Δm.c²  And the second.

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.

Three Types of Atomic Nuclear Changes

Fusion in the Stars Nunez & Panogalinog. Nuclear Fusion in stars is one of the most important reasons which make life on Earth possible! ○ HOW IS THAT.

The Sun and Us The Sun’s Energy. Energy leaves the sun in the form of heat and electromagnetic radiation Result from the fusion reactions in the sun.

Fission vs. Fusion. How Does the Sun Provide Energy? What’s Happening?

P. Sci. Unit 12 Nuclear Radiation Chapter 10. Essential Questions 1)Identify four types of nuclear radiations and compare and contrast their properties.

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.

Add to table of Contents: Fusion/Fission LabPg. 74 Fission and FusionPg. 75.

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

10.4 Fission vs. Fusion Distinguish between fission and fusion.

Introduction to Nuclear Fission and Fusion

Section 4 Nuclear Fission Nuclear fission is the process of splitting a nucleus into several smaller nuclei Only large nuclei such plutonium can undergo.

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

What is a nuclear reaction?

P. Sci. Unit 12 Nuclear Radiation Chapter 10. Nuclear Radiation Strong Nuclear force – the force that holds protons and neutrons together. Remember that.

Nuclear Fusion and Fission

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

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

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

JEOPARDY JEOPARDY JEOPARDY JEOPARDY JEOPARDY JEOPARDY JEOPARDY JEOPARDY JEOPARDY JEOPARDY JEOPARDY JEOPARDY JEOPARDY JEOPARDY JEOPARDY JEOPARDY JEOPARDY.

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

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.

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

Nuclear Chemistry I.Half-Life II.Fission vs. Fusion.

Nuclear Chemistry. Radioactivity  Radioisotopes – isotopes that are unstable, who’s nucleus undergoes changes to gain stability  Radiation – the penetration.

Nuclear Reactions: Fission & Fusion

The Atomic Nucleus.

Fusion and Fission.

Chapter 9 Nuclear Radiation

Chain Reactions Chain Reaction - the series of repeated fission reactions caused by the release of neutrons in each reaction.

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 Reactions.

Nuclear Chemistry.

Nuclear Energy.

Nuclear Reactions November SCH 4U1 Mr. Dvorsky.

Nuclear Energy Fission vs Fusion.

RADIOACTIVITY SPS4. Obtain, evaluate, and communicate information to explain the changes in nuclear structure as a result of fission, fusion and radioactive.

THE SUN: Fusion, Fission and Combustion

NUCLEAR CHEMISTRY Unit 1 Notes.

AKA Radioactive DECAY or NUCLEAR DECAY

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

What is a nuclear reaction?

Nuclear Reactions: FISSION & FUSION.

1.1.3 Explain how the sun produces energy which is transferred to the Earth by radiation. Sun’s Energy.

Fusion vs Fission.

Nuclear Fission and Fusion

Nuclear Energy.

Nuclear Energy Nuclear Structure and Radioactivity.

Chemistry Unit Two, Day Four.

Presentation transcript:

Energy Nuclear Fusion, Nuclear Fission, Combustion and Solar Radiation

Nuclear Fusion: Energy from the Sun When two or more lighter atoms fuse together to create one larger one Occurs in all stars What are stars made of? – Hydrogen – Helium Not radioactive in nature – if processes is triggered to happen it will be radioactive

What is radioactivity? Radioactive- an element that leaks energy because the nuclei is unstable Many different isotopes (types) Most common forms are alpha, bet and gamma Used medically to treat cancer = radiation

Nuclear Fusion Must have high density, high temperature Produces 3-4x the energy that nuclear fission produces Hydrogen bomb uses nuclear fusion – first used in 1950’s as a result of the Cold War

Nuclear Fission The splitting of a large atom into two or more smaller ones Does not normally occur in nature Is mostly radioactive Must have critical mass of the substance and high speed neutrons Takes little energy

Nuclear Fission Energy released is 1 million x of that of a chemical reaction – Still less than that of nuclear fusion Used as a nuclear weapon : the atom bomb, atomic bomb Used in nuclear power plants

Combustion Combustion is a chemical process -substance reacts rapidly with oxygen and gives off heat. -the original substance is called the fuel - fuel can be liquid, gas or solid -the source of oxygen is called the oxidizer -usually air

How Combustion Works

3 Types of Energy List out the three types of energy and summarize their main points 1.Nuclear Fusion Nuclear Fission Combustion