Chapter 42.

Slides:

Advertisements

Similar presentations

Chapter 22 – Nuclear Chemistry

Advertisements

My Chapter 29 Lecture.

The structure of nuclei Nuclei are composed of just two types of particles: protons and neutrons. These particles are referred to collectively as nucleons.

The Atomic Nucleus and Radioactivity The nucleus is composed of particles called nucleons, which are protons and neutrons. The number of nucleons is called.

Chapter 30 Nuclear Physics

Happyphysics.com Physics Lecture Resources Prof. Mineesh Gulati Head-Physics Wing Happy Model Hr. Sec. School, Udhampur, J&K Website: happyphysics.com.

NOTES: 25.2 – Nuclear Stability and Radioactive Decay

A nucleus can be specified By an atomic number and a Mass number.

Nuclear / Subatomic Physics Physics – Chapter 25 (Holt)

Lecture 354/26/06. What does it mean to be radioactive? Radioactivity vs. nuclear power.

Physics 490: Project Lab Radioactivity: Counting Statistics.

Learning Targets I can name the force that holds the atom’s nucleus together I can describe the two reasons why some isotopes are radioactive. I can describe.

Physics for Scientists and Engineers, 6e

Objectives To learn the types of radioactive decay

Nuclear Physics Physics 12. Protons, Neutrons and Electrons  The atom is composed of three subatomic particles: Particle Charge (in C) Symbol Mass (in.

Text here Chapter 5. Atoms Atoms are the smallest particle of at element that have the properties of that element. Atoms are too small to be seen with.

Chapter 39 The Atomic Nucleus and Radioactivity

Reading Assignment: pp

Subatomic Physics Chapter Properties of the Nucleus The nucleus is the small, dense core of an atom. Atoms that have the same atomic number but.

Atomic Stability. Isotopes Isotopes are atoms of an element that have different numbers of neutrons in their nucleus. Cu Copper – 63 OR Copper.

Finding Absolute Ages Using Radioactive Isotopes

The Nucleus of the Atom Chapter 12 Great Idea: Nuclear energy depends on the conversion of mass into energy.

Nuclear Radiation.

Warm Up Where are the biggest atoms on the periodic table? 2.Arrange the following elements in increasing electronegativity: Cl, As, Sn 3.Which.

Radioactive Isotopes and Half Life 1. What is a Radioactive Isotope? What is Radioactive Decay? What is Half Life? 2.

Review. What type of decay will happen if the nucleus contains too many neutrons? Beta Decay.

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

Ch 9 Nuclear Decay Review from ch 4…

Radioactivity and Nuclear Energy Chapter 19 neFFc&feature=related.

CHAPTER 21 NUCLEAR CHEMISTRY. NUCLEUS NUCLEONS ARE MADE UP OF PROTONS AND NEUTRONS NUCLIDE IS AN ATOM IDENTIFIED BY THE NUMBER OF PROTONS AND NEUTRONS.

Chapter 4.4 and 25.  Lawrence’s cyclotron: Articles/Archive/early-years.html Articles/Archive/early-years.html.

Chapter 3 Atomic Structure. The Structure Of the Atom Particle masschargelocation Proton1 AMU +1in nucleus Neutron 1 AMU 0in nucleus Electron 0 AMU -1.

Nuclear Chemistry Objective: To explain the process of radioactive decay using nuclear equations and half life Essential Question: How do unstable (radioactive)

The nucleus consists of protons and neutrons, collectively called nucleons. The number of protons is the atomic number. Protons plus neutrons is the atomic.

Chapter 15 Nuclear Radiation

Nuclear Chemistry The Atom The atom consists of two parts: 1. The nucleus which contains: 2. Orbiting electrons. protons neutrons Multiple nuclei is.

Protons and neutrons are called nucleons. An atom is referred to as a nuclide. An atom is identified by the number of protons and neutrons in its nucleus.

Chapter 21 Nuclear Chemistry John A. Schreifels Chemistry 212.

Chapter 31: Nuclear Physics and Radioactivity

C. Johannesson CHAPTER 22 Nuclear Chemistry II. Radioactive Decay (p ) II. Radioactive Decay (p ) I IV III II.

Nuclear Chemistry. Reactions Chemical Involve electrons Affected external factors (temp, pressure, catalyst) Nuclear Involve the nucleus Release WAY more.

Radioactivity Physics 12 Adv. Radioactivity Radioactive decay is the emission of some particle from a nucleus which is accompanied by a change of state.

Radioactivity Radioactivity is the spontaneous

Chapter 21 Nuclear Chemistry

Do Now Which nuclear emission has the greatest mass and the least penetrating power? an alpha particle 2. a beta particle a neutron 4. a positron When.

Nuclear Chemistry. The Atom The atom consists of two parts: 1. The nucleus which contains: 2. Orbiting electrons. protons neutrons.

The Structure of the Atom Radioactivity. –Spontaneous emission of radiation by certain atoms –The structure of atomic nuclei and the changes they undergo.

Nuclear Chemistry. Chemical ReactionsNuclear Reactions - Occur when bonds are broken or formed -Occur when the nucleus emits particles or rays -Atoms.

Nuclear Transformations Objectives: 1. What determines the type of decay a radioisotope undergoes? 2. How much of a sample of a radioisotope remains after.

Nuclear Radiation Half-Life. What is Radiation? Penetrating rays and particles emitted by a radioactive source Result of a nuclear reaction! –Involves.

Nuclear Physics Nuclei atomic number Z = protons

Types of Radioactive Decay Kinetics of Decay Nuclear Transmutations

IB Physics 12 Mr. Jean January 15th, 2014.

Thursday, October 15 th, 2015 The ABG's (or Alpha, Beta, Gamma) of Radioactivity.

Chapter 21 Section 2 Radioactive Decay Radioactive Decay.

Chapter 14 Section 14.1.

Chapter 18 The Nucleus. Cool Nuclear Facts Nucleus has a density of 1.6x10 14 g/cm 3 Nuclear material the size of a ping pong ball would be 2.5 billion.

Honors Physics Chapter 25: Subatomic Physics.  Nucleons  Protons and Neutrons that Make Up the Nucleus  Atomic Number (Z)  # of Protons  Atomic Mass.

Nuclear Stability and Decay 1500 different nuclei are known. Only 264 are stable and do not decay. The stability of a nucleus depends on its neutron-to-

Nucleus decay. How do you write equations with different types of nuclear decay? It all depends on the type of decay. The symbols should represent what.

By the end of this presentation, you should be able to: Select and use Coulomb’s law to determine the force of repulsion, and Newton’s law of gravitation.

CLICK HERE TO BEGIN! Directions: Click the term that correctly matches the definition in each question.

NUCLEAR CHEMISTRY Chapter 20. Nuclear Chemistry Radioactivity is the emission of subatomic particles or high- energy electromagnetic radiation by the.

The Atomic Nucleus & Radioactive Decay

Knowledge Organiser – Atomic Structure

More about decay modes Why do some isotopes decay and others are stable? Why do some decay by Beta and others by Alpha?

Nuclear Chemistry Chapter 21.

Nuclear Reactions.

Nuclear Chemistry The energy of life.

Presentation transcript:

Chapter 42

Three electrons orbit a neutral 6Li atom Three electrons orbit a neutral 6Li atom. How many electrons orbit a neutral 7Li atom? 1. 1 2. 2 3. 3 4. 4 5. 5 STT42.1

Three electrons orbit a neutral 6Li atom Three electrons orbit a neutral 6Li atom. How many electrons orbit a neutral 7Li atom? 1. 1 2. 2 3. 3 4. 4 5. 5 STT42.1

3. A diagonal line that goes up and to the right. The isobars corresponding to one specific value of A are found on the plot to the right along 1. A vertical line. 2. A horizontal line. 3. A diagonal line that goes up and to the right. 4. A diagonal line that goes up and to the left. STT42.2

3. A diagonal line that goes up and to the right. The isobars corresponding to one specific value of A are found on the plot to the right along 1. A vertical line. 2. A horizontal line. 3. A diagonal line that goes up and to the right. 4. A diagonal line that goes up and to the left. STT42.2

A very bright spotlight shines on a Geiger counter. Does it click? 1. Yes 2. No STT42.3

A very bright spotlight shines on a Geiger counter. Does it click? 1. Yes 2. No STT42.3

A sample starts with 1000 radioactive atoms A sample starts with 1000 radioactive atoms. How many half-lives have elapsed when 750 atoms have decayed? 1. 0.25 2. 0.75 3. 1.5 4. 2.0 5. 2.5 STT42.4

A sample starts with 1000 radioactive atoms A sample starts with 1000 radioactive atoms. How many half-lives have elapsed when 750 atoms have decayed? 1. 0.25 2. 0.75 3. 1.5 4. 2.0 5. 2.5 STT42.4

The cobalt isotope 60Co (Z = 27) decays to the nickel isotope 60Ni (Z = 28). The decay process is 1. Alpha decay. 2. Beta-plus decay. 3. Beta-minus decay. 4. Electron capture. 5. Gamma decay. STT42.5

The cobalt isotope 60Co (Z = 27) decays to the nickel isotope 60Ni (Z = 28). The decay process is 1. Alpha decay. 2. Beta-plus decay. 3. Beta-minus decay. 4. Electron capture. 5. Gamma decay. STT42.5

Chapter 42 Reading Quiz

Protons and neutrons together are referred to as 1. Nuclei. 2. Neutrinos. 3. Nucleons. 4. Mesons. 5. Leptons. IG42.1

Protons and neutrons together are referred to as 1. Nuclei. 2. Neutrinos. 3. Nucleons. 4. Mesons. 5. Leptons. IG42.1

How many kinds of ionization radiation are there? 1. One 2. Two 3. Three 4. Four 5. Five IG42.2

How many kinds of ionization radiation are there? 1. One 2. Two 3. Three 4. Four 5. Five IG42.2

50% of the nuclei in a radioactive sample decay in one half life 50% of the nuclei in a radioactive sample decay in one half life. What percent decay in two half lives? 1. 100% 2. 75% 3. 50% 4. 25% IG42.3

50% of the nuclei in a radioactive sample decay in one half life 50% of the nuclei in a radioactive sample decay in one half life. What percent decay in two half lives? 1. 100% 2. 75% 3. 50% 4. 25% IG42.3

1. increases as the nuclear radius increases. The nuclear density 1. increases as the nuclear radius increases. 2. decreases as the nuclear radius increases. 3. stays roughly constant as the nuclear radius increases. 4. Depends on the ratio of neutrons to protons. IG42.4

1. increases as the nuclear radius increases. The nuclear density 1. increases as the nuclear radius increases. 2. decreases as the nuclear radius increases. 3. stays roughly constant as the nuclear radius increases. 4. Depends on the ratio of neutrons to protons. IG42.4

The strong force is an attractive force between 1. two protons. 2. two neutrons. 3. a proton and a neutron. 4. an electron and a neutron. 5. all of 1–4. IG42.5

The strong force is an attractive force between 1. two protons. 2. two neutrons. 3. a proton and a neutron. 4. an electron and a neutron. 5. all of 1–4. IG42.5

The line of stability shows that, in general, stable nuclei have 1. more neutrons than protons. 2. more protons than neutrons. 3. roughly equal numbers of protons and neutrons. 4. more protons than electrons. 5. more neutrons than electrons. IG42.6

The line of stability shows that, in general, stable nuclei have 1. more neutrons than protons. 2. more protons than neutrons. 3. roughly equal numbers of protons and neutrons. 4. more protons than electrons. 5. more neutrons than electrons. IG42.6