Presentation is loading. Please wait.

Presentation is loading. Please wait.

Nuclear Decay.

Published byRobert Edward Ferguson Modified over 8 years ago

Similar presentations

Presentation on theme: "Nuclear Decay."— Presentation transcript:

1 Nuclear Decay

2 Nuclear Symbols Mass number, A (p+ + no) Element symbol
Atomic number, Z (number of p+)

3 Balancing Nuclear Equations
Areactants = Aproducts = (1) = (0) Zreactants = Zproducts

4 Balancing Nuclear Equations #2
222 226 = 4 + ____ 222 Rn 86 88 = 2 + ___ 86 Atomic number 86 is radon, Rn

5 Balancing Nuclear Equations #3
95 = (1) + ____ 95 Y 39 39 = (0) + ____ Atomic number 39 is yttrium, Y

6 Alpha Decay Alpha production (a): an alpha particle is a
helium nucleus Alpha decay is limited to heavy, radioactive nuclei

7 Alpha Radiation Limited to VERY large nucleii.

8 Beta Decay Beta production (b): A beta particle is an
electron ejected from the nucleus Beta emission converts a neutron to a proton

9 Beta Radiation Converts a neutron into a proton.

10 Gamma Ray Production Gamma ray production (g):
Gamma rays are high energy photons produced in association with other forms of decay. Gamma rays are massless and do not, by themselves, change the nucleus

11 Gamma Ray Production Gamma ray production (g):
Gamma rays are high energy photons produced in association with other forms of decay. Gamma rays are massless and do not, by themselves, change the nucleus

12 Positron Production Positron emission:
Positrons are the anti-particle of the electron Positron emission converts a proton to a neutron

13 Electron Capture Electron capture: (inner-orbital electron is captured by the nucleus) Electron capture converts a proton to a neutron

14 Types of Radiation

15 Nuclear Stability Decay will occur in such a way as to return a nucleus to the band (line) of stability. The most stable nuclide is Iron-56 If Z > 83, the nuclide is radioactive Graphic – Wikimedia user : Napy1kenobi

16 A Decay Series A radioactive nucleus reaches a stable state by a series of steps Graphic – Wikimedia Commons User Tosaka

17 Half-life Graphic -

18 Decay Kinetics Decay occurs by first order kinetics (the rate of decay is proportional to the number of nuclides present) N0 = number of nuclides present initially N = number of nuclides remaining at time t k = rate constant t = elapsed time

19 Calculating Half-life
t1/2 = Half-life (units dependent on rate constant, k)

20 Sample Half-Lives

Download ppt "Nuclear Decay."

Similar presentations

CHAPTER 22 Nuclear Chemistry

CHAPTER 22 Nuclear Chemistry
Nuclear Chemistry.

Nuclear Chemistry.
Radioactive Decay. - Alpha Decay The emission of an particle from the nucleus of an atom is called alpha decay An alpha particle is just a helium nucleus.

Radioactive Decay. - Alpha Decay The emission of an particle from the nucleus of an atom is called alpha decay An alpha particle is just a helium nucleus.
Chapter 22 – Nuclear Chemistry

Chapter 22 – Nuclear Chemistry
CHEM 5013 Applied Chemical Principles Chapter Fourteen Professor Bensley Alfred State College.

CHEM 5013 Applied Chemical Principles Chapter Fourteen Professor Bensley Alfred State College.
Nuclear Chemistry Bravo – 15,000 kilotons. CA Standards.

Nuclear Chemistry Bravo – 15,000 kilotons. CA Standards.
Introduction to Nuclear Chemistry. © 2009, Prentice-Hall, Inc. The Nucleus Remember that the nucleus is comprised of the two nucleons, protons and neutrons.

Introduction to Nuclear Chemistry. © 2009, Prentice-Hall, Inc. The Nucleus Remember that the nucleus is comprised of the two nucleons, protons and neutrons.
LOJ Feb 2004 Radioactivity 1 What is radioactive decay?

LOJ Feb 2004 Radioactivity 1 What is radioactive decay?
Nuclear Chemistry & Radioactive Decay. Nuclear Chemistry Defined Changes occurring WITHIN the nucleus of an atom Atomic nuclei often emit particles or.

Nuclear Chemistry & Radioactive Decay. Nuclear Chemistry Defined Changes occurring WITHIN the nucleus of an atom Atomic nuclei often emit particles or.
Alpha, Beta, and Gamma Decay

Alpha, Beta, and Gamma Decay
Nuclear Energy. Nuclear energy is all around us and can be used for medical purposes. Nuclear energy is when an atom is split and releases energy or particles.

Nuclear Energy. Nuclear energy is all around us and can be used for medical purposes. Nuclear energy is when an atom is split and releases energy or particles.
1. Nucleons. Protons and neutrons 2. Nuclide

1. Nucleons. Protons and neutrons 2. Nuclide
Nuclear.

Nuclear.
Nuclear Chemistry Bravo – 15,000 kilotons.

Nuclear Chemistry Bravo – 15,000 kilotons.
Reading Assignment: pp

Reading Assignment: pp
Chapter 25 Review Solutions. Which of the following particles cannot be stopped by metal foil? a. Alphab. Betac. Gamma.

Chapter 25 Review Solutions. Which of the following particles cannot be stopped by metal foil? a. Alphab. Betac. Gamma.
What is it to be Radioactive? Radioactive decay is the process in which an unstable atomic nucleus loses energy by emitting radiation in the form of particles.

What is it to be Radioactive? Radioactive decay is the process in which an unstable atomic nucleus loses energy by emitting radiation in the form of particles.
THE NUCLEUS: A CHEMIST’S VIEW. Nuclear Symbols Element symbol Mass number, A (p + + n o ) Atomic number, Z (number of p + )

THE NUCLEUS: A CHEMIST’S VIEW. Nuclear Symbols Element symbol Mass number, A (p + + n o ) Atomic number, Z (number of p + )
4.4 Unstable Nuclei and Radioactive Decay Radioactive decay In the late 1890s, scientists noticed some substances spontaneously emitted radiation, a.

4.4 Unstable Nuclei and Radioactive Decay Radioactive decay In the late 1890s, scientists noticed some substances spontaneously emitted radiation, a.
Nuclear Decay Notes Stability Curve Atomic number Z Neutron number N Stable nuclei Z = N 20406080100 40 100 140 20 60 80 120 Nuclear particles are held.

Nuclear Decay Notes Stability Curve Atomic number Z Neutron number N Stable nuclei Z = N Nuclear particles are held.

Similar presentations

Ads by Google