Benefits & Dangers of: Radioisotopes

Slides:

Advertisements

Similar presentations

NUCLEAR CHEMISTRY DO NOW: Answer the following questions

Advertisements

Chapter 25.  Marie Curie was a Polish scientist whose research led to many discoveries about radiation and radioactive elements. In 1934 she died from.

Half-life – length of time it takes for a radioactive substance to decay to half its original mass As a radioactive substance decays, there’ll be less.

O Level Physics Chapter :25: Use of Radioactivity

Non-renewable Power Resources: Nuclear Power

Radioactive Materials.  Elements that emit radiation all the time are called radioactive  Radioactive elements that are found in the world around us.

Useful applications of radioactivity and nuclear energy Power for good... and evil.

Section 3 Nuclear Changes Section 3: Nuclear Radiation Today Preview Key Ideas Bellringer Where is Radiation? Beneficial Uses of Nuclear Radiation Risks.

Nuclear Radiation Today: lec 9.3 Lecture 9.3 Sprint nuclear missile.

Nuclear Chemistry Nine Mile Oswego, NY.  Radioisotope – an isotope that is radioactive  Example: Carbon-14  Radioactive isotopes can be naturally occurring,

NUCLEAR CHEMISTRY 1 Isotopes-Review  Isotopes are atoms of the same element that have the same # of protons but different # of neutrons or mass. X Atomic.

Section 3 Nuclear Changes Where is Radiation? 〉 We are continually exposed to radiation from natural sources, such as the sun, soil, rocks, and plants.

STABILITY OF NUCLEI Most chemical reactions involve either the exchange or sharing of electrons between atoms. Nuclear chemistry involves changes in the.

Transmutation- When the nucleus of one element changes to the nucleus of another Stability- Most elements are very stable - Those above atomic number.

Benefits & Dangers of Radioisotopes. Dating (not that kind) C-14 used to date organic (previously living) materials Living organisms incorporate C-14.

NUCLEAR CHEMISTRY I.Unlike other chemical reactions that involve the transfer of electrons, nuclear reactions involve changes in the nucleus II.Transmutations-

Nuclear Chemistry. Natural Radioactivity The spontaneous breakdown of atomic nuclei, accompanied by the release of some form of radiation.

Nuclear Radiation Applications. Penetrating Power.

Benefits & Dangers of: Radioisotopes. Dating (not that kind) C-14 used to date organic (previously living) materials living organisms incorporate C-14.

TOPIC: Benefits & Dangers of: Radioisotopes Do Now: Draw Bohrs Model for the Cl-35 isotope.

Nuclear Power Plants. If the neutrons can be controlled, then the energy can be released in a controlled way. Nuclear power plants produce heat through.

Isotope: same element (same #P) different number of neutrons (different mass #) Carbon-12 has 6 protons and 6 neutrons Carbon -14 has 6 protons and.

Nuclear Energy. Energy Of Nuclear Changes: * Matter can be converted into energy, and energy can be converted into matter. E = energy M = mass C = speed.

Ch Isotopes and Half-life. Write the alpha and beta decay of Radon-223 Alpha: Rn → 4 2 He Po Beta: Rn → 0 -1 e Fr.

Reference Table: N and O

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.

Unit 11: Nuclear Chemistry Topic 1: Natural Radioactivity

Unit 4 Lesson 3 Nuclear Reactions

“Nuclear Changes”.

Uses of Radioisotopes.

Nuclear Reactions Chapter 18 Supernova 1999gi in NGC 3184

Unit 11: Nuclear Chemistry Topic 1: Natural Radioactivity

Aim # 48: What are the advantages and disadvantages of radioactive isotopes? H.W. # 48 Study pp Ans. ques. p.630 # 27-32,34,53,54,56.

Uses for Radioactive Isotopes

Nuclear Chemistry.

UNIT 9: Nuclear Chemistry

Topic: Nuclear Chemistry

P2 Topic 6: Benefits and drawbacks of using radioactive materials

Applications of Radioactivity

Unit 4 Lesson 3 Nuclear Reactions

List and describe some useful applications of radioactive isotopes

Warm-up Sodium-24 beta decays. What new isotope is formed when it decays? How much new isotope is formed after 45 hours of a decaying Na-24? How much.

Nuclear Chemistry Topic 12.

Benefits & Dangers of Radioisotopes

Nuclear Chemistry Chemistry involving changes in the nucleus References: Text Chapter 19 Review Book Topic 12.

Unit 13: Nuclear Chemistry Topic 1: Natural Radioactivity

Uses of Nuclear Radiation, Fission and Fusion

Benefits & Dangers of: Radioisotopes

“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.

What fraction of a given sample of a radioactive nuclide remains after four half- lives? What are the different types of common radioactive decay?

Nuclear Chemistry.

Uses of radioactive sources

Fission and Fusion of Atomic Nuclei and Radiation in Your Life

Text Book: Chapter 28 Review Book: Topic 12

Benefits & Dangers of: Radioisotopes

Nuclear Energy.

Chapter 16 Radioactivity.

Chapter 5 The Atomic Nucleus

Nuclear Chemistry.

What is a nuclear reaction?

Reactions that Involve Changes in the Nucleus

PACKET #14: Nuclear Chemistry Reference Table: N and O

Unit 4 Lesson 3 Nuclear Reactions

Unit: Nuclear Chemistry

Radioactivity What is it?

Uses of radioactive sources

Nuclear Applications.

Unit 11: Nuclear Chemistry Topic 1: Natural Radioactivity

Nuclear Chemistry.

Presentation transcript:

Benefits & Dangers of: Radioisotopes

Dating (not that kind) C- 14 is used to date Fossil Living organisms incorporate C-14 into their structure, along with C-12 C-14 decays with known half-life 14C  14N + 0 comparing amounts of C-14 & C-12 can figure how many half-lives have gone by since it died Helps determine age of substance 6 7 -1

ROCKS U-238 decays to Pb-206 (many steps) Over time, amount of U  and amount of Pb  Scientists use the ratio of U-238 to Pb-206 to date rocks and figure out the age of EARTH

Kill bacteria and spores in food and mail Co-60: kills bacteria in foods

Medical radioisotopes with short half-lives (quickly eliminated from the body) Tracers in medical diagnosis Treatment of cancer I-131: Diagnosis & treat thyroid disorders Co-60: gamma emitter Used to kill cancerous tumors Tc-99: treatment of brain cancer

Power Plants Used as a fuel source to generate electricity No contributions to greenhouse gases No mercury contamination of atmosphere

Radiation Risks Can damage normal tissue High doses can cause illness & death Can cause mutations in DNA Disposal of waste is difficult (esp. from nuclear power plants) Storage & transportation both problematic

Chernobyl