Unit 4 Lesson 3 Nuclear Reactions

Slides:



Advertisements
Similar presentations
Facts About Nuclear Energy. Beneficial Uses of Radiation.
Advertisements

UNIT FOUR: Matter and its Changes  Chapter 12 Atoms and the Periodic Table  Chapter 13 Compounds  Chapter 14 Changes in Matter  Chapter 15 Chemical.
Integrated Science Chapter 25 Notes
Nuclear Reactions.
Nuclear Chemistry Nuclear chemistry is the study of the structure of atomic nuclei and the changes they undergo.
Transmutation- When the nucleus of one element changes to the nucleus of another Stability- Most elements are very stable - Those above atomic number.
Nuclear Energy. A. What does radioactive mean? 1. Radioactive materials have unstable nuclei, which go through changes by emitting particles or releasing.
Section 1Nuclear Changes Section 1: What is Radioactivity?
Radioactivity Nucleus – center of the atom containing protons and neutrons –How are the protons and neutrons held together? Strong Force - an attractive.
P. Sci. Unit 12 Nuclear Radiation Chapter 10. Essential Questions 1)Identify four types of nuclear radiations and compare and contrast their properties.
1. What is radioactivity? Radioactivity is the process in which an unstable atomic nucleus emits charged particles and energy. 2. What is a radioisotope?
High School Physical Science Week 11 Radioactivity.
P. Sci. Unit 12 Nuclear Radiation Chapter 10. Nuclear Radiation Strong Nuclear force – the force that holds protons and neutrons together. Remember that.
Radioactivity Elements that emit particles and energy from their nucleus are radioactive. Some large atoms are unstable and cannot keep their nucleus together.
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.
1) How is the mass number calculated (2).
Unit 14 Ch. 28 Nuclear Chemistry
Unit 4 Lesson 3 Nuclear Reactions
Radioactivity Clip.
UNIT 9: Nuclear Chemistry
Nuclear Chemistry Nuclear Reactions involve an atom’s nucleus !!!!
Radioactivity Nucleus – center of the atom containing protons and neutrons How are the protons and neutrons held together? Strong Force - an attractive.
Chapter 9.2 Nuclear Radiation.
Chapter 9 – Radioactivity and Nuclear Reactions
Unit 4 Lesson 3 Nuclear Reactions
Pearson Prentice Hall Physical Science: Concepts in Action
Radioactivity.
Nuclear Chemistry.
Nuclear Chemistry “Nuclear radiation is in the form of elementary particles emitted by an atomic nucleus, as alpha rays, beta rays, or gamma rays, produced.
The Atomic Nucleus & Radioactive Decay
Nuclear Chemistry Nuclear Reactions involve an atom’s nucleus !!!!
L 36 Modern Physics [3] [L36] Nuclear physics [L37] Nuclear energy
Nuclear Decay Song on Youtube
E = mc2 If you can’t explain it simply, you haven’t learned it well enough. Einstein.
Chapter 11 Resources & Energy.
Nuclear Chemistry.
Nuclear Energy.
Chapter 4: Atomic Energy
Chapter 4: Atomic Energy
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.
“More illness is caused by improper water than any other reason and largely because radioactivity is lost from our daily supply of drinking water. "By.
Nuclear Chemistry Chapter 28.
14.4 Chemical vs. Nuclear Reactions
Nuclear Chemistry.
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.
Text Book: Chapter 28 Review Book: Topic 12
Nuclear Decay Song on Youtube
Nuclear Chemistry.
Nuclear Radiation GPS:
5.2 - Nuclear Chemistry.
Chapter 16 Nuclear Energy
Chapter 16 Radioactivity.
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?
Reactions that Involve Changes in the Nucleus
Nuclear Chemistry.
RADIATION.
Unit 4 Nuclear Chemistry.
Chapter 14.4 Learning Goals
Pearson Prentice Hall Physical Science: Concepts in Action
Fission & Fusion.
Fundamental Forces of the Universe
Unit 4 – Nuclear Reactions
Nuclear Radiation.
Nuclear Energy.
Nuclear Energy Nuclear Structure and Radioactivity.
Nuclear Chemistry.
Chemistry Unit Two, Day Four.
Presentation transcript:

Unit 4 Lesson 3 Nuclear Reactions Copyright © Houghton Mifflin Harcourt Publishing Company

New Identity What happens during a nuclear reaction? Unit 4 Lesson 3 Nuclear Reactions New Identity What happens during a nuclear reaction? A nuclear reaction is a change that affects the nucleus of an atom. It differs from a chemical reaction in several ways. One difference is that chemical reactions do not change the mass of atoms, but nuclear reactions do so by a very small amount. A small amount of mass can change into a large amount of energy, because energy is equal to mass times the speed of light squared. Copyright © Houghton Mifflin Harcourt Publishing Company

What happens during a nuclear reaction? Unit 4 Lesson 3 Nuclear Reactions What happens during a nuclear reaction? Chemical reactions do not change the nucleus of atoms, but nuclear reactions do. Nuclear reactions can change the identity of atoms by changing the number of protons in the nucleus. Nuclear reactions that change the number of neutrons do not change an atom into a new element. Copyright © Houghton Mifflin Harcourt Publishing Company

What happens during a nuclear reaction? Unit 4 Lesson 3 Nuclear Reactions What happens during a nuclear reaction? Atoms with the same number of protons but different numbers of neutrons are called isotopes. Isotopes of the same element have different mass numbers. The mass number is added to the end of the name of an element to identify isotopes, such as lithium-6 and lithium-7. Copyright © Houghton Mifflin Harcourt Publishing Company

What happens during a nuclear reaction? Unit 4 Lesson 3 Nuclear Reactions What happens during a nuclear reaction? Compare and contrast the isotopes lithium-6 and lithium-7. Copyright © Houghton Mifflin Harcourt Publishing Company

Just Passing Through What are the types of radioactive decay? Unit 4 Lesson 3 Nuclear Reactions Just Passing Through What are the types of radioactive decay? Radioactive decay is a nuclear reaction in which an unstable nucleus can give off energy and, sometimes, particles. The particles and energy given off are called nuclear radiation. Unstable nuclei continue to decay until they form stable nuclei. Three kinds of radioactive decay are alpha decay, beta decay, and gamma decay. Copyright © Houghton Mifflin Harcourt Publishing Company

What are the types of radioactive decay? Unit 4 Lesson 3 Nuclear Reactions What are the types of radioactive decay? Alpha decay is the release of an alpha particle and energy from a radioactive nucleus. An alpha particle consists of two protons and two neutrons. It is the same as a helium nucleus. Alpha decay produces atoms of a different element because it reduces the number of protons in the nucleus. Copyright © Houghton Mifflin Harcourt Publishing Company

What are the types of radioactive decay? Unit 4 Lesson 3 Nuclear Reactions What are the types of radioactive decay? Beta decay is the release of a beta particle and energy. There are two types of beta particles: positrons and electrons. Both particles have a mass of almost zero. Positrons have a charge of 1+; electrons have a charge of 1−. A proton can break apart into a neutron and a positron. A neutron can break apart into a proton and an electron. Copyright © Houghton Mifflin Harcourt Publishing Company

What are the types of radioactive decay? Unit 4 Lesson 3 Nuclear Reactions What are the types of radioactive decay? What is happening in each of these nuclear reactions? Copyright © Houghton Mifflin Harcourt Publishing Company

What are the types of radioactive decay? Unit 4 Lesson 3 Nuclear Reactions What are the types of radioactive decay? Gamma rays are released during gamma decay. Gamma rays are high-energy radiation and have no mass and no charge. Gamma decay alone does not change the number of particles in the nucleus. Therefore, it does not form a different element or isotope. Some of the energy released during alpha decay and beta decay is in the form of gamma rays. Copyright © Houghton Mifflin Harcourt Publishing Company

How does radioactive decay affect matter? Unit 4 Lesson 3 Nuclear Reactions How does radioactive decay affect matter? Although alpha particles do not penetrate deeply, they can damage living cells by breaking apart chemical bonds when they hit substances. Beta particles can also break molecular bonds in cells and cause illness. Gamma rays have the greatest penetrating power. They can remove electrons from atoms, damaging cells and weakening metals. Large doses lead to radiation sickness and cancer. Copyright © Houghton Mifflin Harcourt Publishing Company

How is radioactive decay used? Unit 4 Lesson 3 Nuclear Reactions How is radioactive decay used? Many smoke detectors contain a small amount of radioactive americium. The americium emits alpha particles that are used to detect smoke. Gamma rays are used to kill bacteria on bandages. Radioactive decay is used to test the thickness of metal sheets and to find leaks in pipes. Copyright © Houghton Mifflin Harcourt Publishing Company

How is radioactive decay used? Unit 4 Lesson 3 Nuclear Reactions How is radioactive decay used? Scientists use radioactive isotopes to determine the age of artifacts, remains, fossils, and rocks. Radioactive tracers are often used to produce images of human body parts. Radioactive material inserted into a tumor can kill the cancer cells that make up the tumor. Copyright © Houghton Mifflin Harcourt Publishing Company

Radioactive Decay in Medicine Unit 4 Lesson 3 Nuclear Reactions Radioactive Decay in Medicine Positron emission tomography (PET) is often used to study brain activity. Tumors are more active than other areas. A gamma knife is a medical device that can be used to destroy brain tumors. It delivers gamma rays to very precise areas of the brain. A radioactive tracer, such as a radioactive isotope of technetium, helps doctors find tumors in bones. The tracer builds up in bones. Copyright © Houghton Mifflin Harcourt Publishing Company

Breaking Up What is nuclear fission? Unit 4 Lesson 3 Nuclear Reactions Breaking Up What is nuclear fission? The nuclear reaction in which a large, unstable nucleus breaks into two smaller nuclei is called nuclear fission. Nuclear fission also releases neutrons and a large amount of energy. Like alpha decay and beta decay, fission changes the nucleus of the atom that breaks apart. Copyright © Houghton Mifflin Harcourt Publishing Company

What is nuclear fission? Unit 4 Lesson 3 Nuclear Reactions What is nuclear fission? What happens to the uranium nucleus when it is hit by a neutron? Copyright © Houghton Mifflin Harcourt Publishing Company

How are mass and energy conserved? Unit 4 Lesson 3 Nuclear Reactions How are mass and energy conserved? In a nuclear fission reaction, a small amount of the mass of the original nucleus is converted to energy. The amount of energy given off by a single fission reaction is small. But a large amount of energy is produced by the fission of many atoms. Copyright © Houghton Mifflin Harcourt Publishing Company

What is the source of nuclear power? Unit 4 Lesson 3 Nuclear Reactions What is the source of nuclear power? Uranium-235 is the fuel used in nuclear power plants. When a uranium nucleus splits apart, it releases neutrons. These neutrons then hit other uranium nuclei, which split apart, too. This continuous series of fission reactions is known as a nuclear chain reaction. Copyright © Houghton Mifflin Harcourt Publishing Company

What is the source of nuclear power? Unit 4 Lesson 3 Nuclear Reactions What is the source of nuclear power? An uncontrolled chain reaction gives off huge amounts of energy very quickly. The nuclear explosions of atomic bombs are the result of uncontrolled chain reactions. Chain reactions can also be controlled. Nuclear power plants turn the energy released by these controlled reactions into electrical energy. Copyright © Houghton Mifflin Harcourt Publishing Company

How do nuclear power plants work? Unit 4 Lesson 3 Nuclear Reactions How do nuclear power plants work? In a nuclear power plant, the energy released during a controlled chain reaction is used to generate electrical energy. To control the chain reaction, engineers must keep many of the released neutrons from hitting other uranium nuclei. Control rods absorb these neutrons, limiting the number of neutrons available to continue the chain reaction. Copyright © Houghton Mifflin Harcourt Publishing Company

How do nuclear power plants work? Unit 4 Lesson 3 Nuclear Reactions How do nuclear power plants work? How is nuclear energy converted to electricity? Copyright © Houghton Mifflin Harcourt Publishing Company

How can we evaluate nuclear power? Unit 4 Lesson 3 Nuclear Reactions How can we evaluate nuclear power? Advantages: Nuclear fission produces a large amount of energy from a small amount of fuel. Thus, the cost of fuel is less than for a fossil fuel power plant. Also, unlike fossil fuels, nuclear energy does not pollute the air or produce greenhouse gases. Copyright © Houghton Mifflin Harcourt Publishing Company

How can we evaluate nuclear power? Unit 4 Lesson 3 Nuclear Reactions How can we evaluate nuclear power? Disadvantages: Accidents at nuclear power plants may cause radioactive materials to leak out, harming the environment, including living things. Also, nuclear energy is not renewable, as supplies of uranium are limited. In addition, nuclear power plants produce radioactive waste, which could give off high levels of radiation for thousands of years. Copyright © Houghton Mifflin Harcourt Publishing Company

Superstars! What is fusion? Unit 4 Lesson 3 Nuclear Reactions Superstars! What is fusion? The energy given off by the sun and other stars comes from nuclear fusion. Nuclear fusion is the process by which nuclei of small atoms combine to form a new, more massive nucleus. Fusion reactions change a small amount of mass into a large amount of energy. Copyright © Houghton Mifflin Harcourt Publishing Company

What is fusion? Explain what happens during this fusion reaction. Unit 4 Lesson 3 Nuclear Reactions What is fusion? Explain what happens during this fusion reaction. Copyright © Houghton Mifflin Harcourt Publishing Company

How can we evaluate power from fusion? Unit 4 Lesson 3 Nuclear Reactions How can we evaluate power from fusion? Challenges: Hydrogen fusion takes place only at temperatures of millions of degrees Celsius. To produce these temperatures requires a large input of energy, and no known material can sustain these high temperatures. Currently, more energy is needed to produce the conditions needed for fusion than can be produced by the fusion reaction itself. Copyright © Houghton Mifflin Harcourt Publishing Company

How can we evaluate power from fusion? Unit 4 Lesson 3 Nuclear Reactions How can we evaluate power from fusion? Potential benefits: The hydrogen fuel needed is readily available from the water in Earth’s oceans. The fusion reaction does not produce radioactive waste or greenhouse gases. An accident at a fusion reactor would release little nuclear radiation into the environment. Copyright © Houghton Mifflin Harcourt Publishing Company