Nuclear Radiation Prentice-Hall Chapter 25.1 Dr. Yager.

Slides:



Advertisements
Similar presentations
Chemistry 25.1.
Advertisements

Nuclear Chemistry Nuclear Chemistry The study of nuclear reactions and their use in chemistry.
Section 1: Nuclear Radiation
Defining the Atom > A neutron walks into a bar and asks how much for a beer. Bartender replies “For you, no charge”.
Section 24.1 Nuclear Radiation
Chemistry 25.1.
Nuclear Radiation > Nuclear Radiation & Transformations.
Nuclear Chemistry Nuclear Reactions. Reactions Chemical Reactions- atoms want stable electron configuration Nuclear Reaction- unstable isotopes (radioisotope)
Nuclear Chemistry Chapter 25. What do you think of when you hear Nuclear Chemistry?
Chapter 25 Nuclear Chemistry 25.1 Nuclear Radiation
Nuclear Radiation.
© Copyright Pearson Prentice Hall Slide 1 of 21 Nuclear Radiation Marie Curie was a Polish scientist whose research led to many discoveries about radiation.
Slide 1 of 21 © Copyright Pearson Prentice Hall Nuclear Radiation > Types of Radiation (copy table into journal) 25.1.
CHAPTER 25 Nuclear Chemistry. Radioactivity Marie and Pierre Curie –S–S–S–Studied uranium salts –F–F–F–Found that uranium emitted rays of particles even.
Defining the Atom > A neutron walks into a bar and asks how much for a beer. Bartender replies “For you, no charge”.
NUCLEAR CHEMISTRY (Sections 4.4, ).  Notes: Read Section 4.4 in your text. Define all vocabulary words (words in bold). For each type of radiation,
Defining the Atom > A neutron walks into a bar and asks how much for a beer. Bartender replies “For you, no charge”.
A radioactive isotope is an atom that has a nucleus that is not stable (will change to form a nucleus of a different element). The process by which the.
Nuclear Chemistry. Radioactivity  Radioisotopes – isotopes that are unstable, who’s nucleus undergoes changes to gain stability  Radiation – the penetration.
Nuclear Chemistry Chapter 25. Nuclear Reactions Occur when nuclei emit particles and/or rays. Atoms are often converted into atoms of another element.
Atomic Theory and Radioactive Decay
Unit 2 Part 2: Nuclear Chemistry
Intro to Nuclear Chemistry/Nuclear Decay
Chp 7.1 Atomic Theory and Radioactive Decay
Nuclear Decay and Half-Life
Radioactivity.
9/14 Opener What should I do if I need to go to the bathroom in Miss D’s class? Check to make sure no one is in the bathroom (only one person out at.
Nuclear Chemistry – Radioactive Decay
Radioactivity and Nuclear Reactions
Nuclear Chemistry Nuclear chemistry is the study of the structure of atomic nuclei and the changes.
Alpha, Beta, and Gamma Decay
Unstable Nuclei and Radioactive Decay
7.1 Atomic Theory and Radioactive Decay
Ch. 28 – Nuclear Chemistry Nuclear Radiation, Nuclear Transformations, Fission & Fusion of Atomic Nuclei.
V. Radioactivity.
polonium (named after Poland)
Chemistry 25.1.
Alpha, Beta, and Gamma Decay
25.1 Nuclear Radiation 25.1 Marie Curie was a Polish scientist whose research led to many discoveries about radiation and radioactive elements. In 1934.
Radioactivity Chapter 8.
Radioactive Decay Atomic Physics.
UNIT 15: NUCLEAR CHEMISTRY
Nuclear Chemistry.
Alpha, Beta, and Gamma Decay
NUCLEAR CHEMISTRY.
Nuclear Chemistry.
Science 10 Unit 2 CHEMISTRY: ATOMIC THEORY EXPLAINS RADIOACTIVITY
Intro to Nuclear Chemistry
Intro to Nuclear Chemistry
Alpha, Beta, and Gamma Decay
Nuclear Chemistry.
LT & SC Radiation Intro Nuclear Radiation Notes
Unit: Nuclear Chemistry
Alpha, Beta, and Gamma Decay
What is it? Where does it come from?
Radioactive Decay Radioactivity results from having an unstable nucleus. When these nuclei lose energy and break apart, decay occurs. Radioactive decay.
Nuclear Chemistry: Radioactivity & Types of Radiation
Nuclear Chemistry – Radioactive Decay
Chapter 7 - Radioactivity
Nuclear Chemistry Chapter 25.
Nuclear Radiation ??? Radioactivity (Nuclear Decay)
Discovering radioactivity
CN#5 Nuclear Radiation Marie Curie was a Polish scientist whose research led to many discoveries about radiation and radioactive elements. In 1934 she.
Section 5 - pg 158 Radioactive Elements
SPARK In your notebook write down the following:
Intro to Nuclear Chemistry
Unit: Nuclear Chemistry
Key areas Nuclear equations to describe radioactive decay, fission and fusion reactions with reference to mass and energy equivalence including calculations.
Unit 4 – Nuclear Reactions
Sec. 3.2 – Radioactive Decay
Presentation transcript:

Nuclear Radiation Prentice-Hall Chapter 25.1 Dr. Yager

Objectives  Explain how an unstable nucleus releases energy.  Describe the three main types of nuclear radiation.

Marie Curie was a Polish scientist whose research led to a theory of radioactivity (a term she coined) and discovery of two radioactive elements, Radium and Polonium. She was the first woman to win a Nobel Prize and first person to win two Nobel Prizes, in physics and chemistry. In 1934 she died from leukemia caused by her long-term exposure to radiation. You will learn about the various types of radiation and their effects.

How does an unstable nucleus release energy? Marie Curie ( ) and Pierre Curie ( ) were able to show that rays emitted by uranium, polonium and radium atoms found in pitchblende caused fogging in photographic plates and ionized surrounding air molecules. Marie Curie named the process by which materials give off such rays radioactivity. Marie Curie named the process by which materials give off such rays radioactivity. The penetrating rays and particles emitted by a radioactive source are called radiation. The penetrating rays and particles emitted by a radioactive source are called radiation.

Nuclear reactions differ from chemical reactions in several important ways. In chemical reactions, atoms tend to attain stable electron configurations by losing or sharing electrons. In chemical reactions, atoms tend to attain stable electron configurations by losing or sharing electrons. In nuclear reactions, the nuclei of unstable isotopes, called radioisotopes, gain stability by undergoing nuclear changes. In nuclear reactions, the nuclei of unstable isotopes, called radioisotopes, gain stability by undergoing nuclear changes.

An unstable nucleus releases energy by emitting radiation during the process of radioactive decay. Key Concept:

The three main types of nuclear radiation are alpha radiation, beta radiation, and gamma radiation.

Alpha Radiation Alpha radiation consists of helium nuclei that have been emitted from the nucleus. These emitted particles, called alpha particles, contain two protons and two neutrons and have a double positive charge.

Beta Radiation Beta radiation consists of an electron resulting from the breaking apart of a neutron in an atom.

Example: β- radiation Carbon-14 emits a beta particle as it undergoes radioactive decay to form nitrogen-14. Carbon-14 emits a beta particle as it undergoes radioactive decay to form nitrogen-14.

Gamma Radiation Gamma radiation consists of high-energy photons emitted by a nucleus of a radioisotope. The high- energy photons are electromagnetic radiation.

Penetrating Ability of Radiation

1.Certain elements are radioactive because their atoms have because their atoms have A. more neutrons than electrons. B. an unstable nucleus. C. a large nucleus. D. more neutrons than protons.

1.Certain elements are radioactive because their atoms have because their atoms have A. more neutrons than electrons. B. an unstable nucleus. C. a large nucleus. D. more neutrons than protons.

2. An unstable nucleus releases energy by energy by A. emitting radiation. B. thermal vibrations. C. a chemical reaction. D. giving off heat.

2. An unstable nucleus releases energy by energy by A. emitting radiation. B. thermal vibrations. C. a chemical reaction. D. giving off heat.

3.Which property does NOT describe an alpha particle? describe an alpha particle? A. 2+ charge B. a relatively large mass C. a negative charge D. low penetrating power

3.Which property does NOT describe an alpha particle? describe an alpha particle? A. 2+ charge B. a relatively large mass C. a negative charge D. low penetrating power

4.When a radioactive nucleus releases a high-speed electron, the process can be described as A. oxidation. B. alpha emission. C. beta emission. D. gamma radiation.

4.When a radioactive nucleus releases a high-speed electron, the process can be described as A. oxidation. B. alpha emission. C. beta emission. D. gamma radiation.

5. What form of radiation has the highest penetrating power? A. oxidation. B. alpha emission. C. beta emission. D. gamma radiation.

5. What form of radiation has the highest penetrating power? A. oxidation. B. alpha emission. C. beta emission. D. gamma radiation.