“The World We Create” NATS 101 Section 6 Don’t forget to turn in your homework! 02/02.

Slides:



Advertisements
Similar presentations
Good Day! 4/11/2017 Discuss the uses of Radioactive Isotopes.
Advertisements

A Nuclear Power Plant. Fallout from Chernobyl The question that all countries asked in 1986, and continue to ask to this day: Could it happen here?
4-5: Radioactive Elements
NUCLEAR CHEMISTRY DO NOW: Answer the following questions
CMH 121 Luca Preziati Chapter 9: Nuclear Chemistry.
Chapter 4 Radioactivity and Medicine A CT scan (computed tomography) of the brain using X-ray beams.
When controlled, nuclear energy has many practical uses…
Radiation. When you see or hear this word what do you think about? What do you think it means? Share your thoughts with me by writing on the post it what.
Radiation. When you see or hear this word what do you think about? What do you think it means? Share your thoughts with me by writing on the post it what.
AMOLE Radioactivity. Science Park HS -- Honors Chemistry Early Pioneers in Radioactivity Roentgen: Discoverer of X- rays 1895 Becquerel: Discoverer of.
Radiation & Radioactivity
Radiation and Its Uses Pg Effects of Radiation Radioactive elements are potentially hazardous, but the effects are quite subtle The effects.
Chemistry Ch. 28 Mr. Palmer Adapted from many sources RADIATION FUNDAMENTALS ATOMIC AND NUCLEAR STRUCTURE.
When Henri Becquerel placed uranium salts on a photographic plate and then developed the plate, he found a foggy image. The image was caused by rays that.
Chapter 4 Nuclear Chemistry and Radiation. What is RADIATION? A form of energy that is emitted from atoms Radiation exists all around you. Several Factors.
Section 3 Nuclear Changes Section 3: Nuclear Radiation Today Preview Key Ideas Bellringer Where is Radiation? Beneficial Uses of Nuclear Radiation Risks.
1 Nuclear Radiation Natural Radioactivity A person working with radioisotopes wears protective clothing and gloves and stands behind a shield.
Radioactivity Chapter 10 section 1 page
The Nucleus and Radioactivity
What is radioactivity? Radioactivity describes an atom which undergoes radioactive decay. Radioactive decay is when an unstable atom of an element emits.
Ch. 18: The Nucleus Review 21.1: Nuclear Stability and Radioactive Decay 21.2 Kinetics of Decay 21.3 Nuclear Transformations.
RADIOACTIVE ELEMENTS. A Quick Review What makes carbon carbon? What defines an element? The number of protons!!!
Transfer of energy by electromagnetic waves. Spontaneous emission of radiation when the nucleus of an atom breaks down to form a different element.
Section 3 Nuclear Changes Where is Radiation? 〉 We are continually exposed to radiation from natural sources, such as the sun, soil, rocks, and plants.
Notes 4-5 Radioactive Elements.
Nuclear Chemistry Introduction Isotopes
B: Radioactive Decay. There are about 350 isotopes of 90 elements found in our solar system. Of these, about 70 are radioactive. Naturally occurring radioisotopes.
NUCLEAR CHEMISTRY QUIZ.
Radiation.
CHAPTER 10 Nuclear Chemistry General, Organic, & Biological Chemistry Janice Gorzynski Smith.
Detecting Radiation in our Radioactive World. Nuclear Technology in our Lives Eaten Eggs? Driven over a Metal Bridge? Attached a Postage Stamp? Use Contact.
1 Module 2 Health and Medical Effects. 2 Health and Medical Effects Terminal Objective: DESCRIBE the indicators, signs, and symptoms of exposure to radiation.
1 IONIZING RADIATION. 2 Non-Ionizing Radiation Does not have enough energy to remove electrons from surrounding atoms.
Radiation and Its Uses Pg Effects of Radiation Radioactive elements are potentially hazardous, but the effects are quite subtle The effects.
Nuclear Reactions.
Nuclear Chemistry.
Chapter 10: Nuclear Chemistry
NUCLEAR VS. CHEMICAL CHEMICAL reactions involve rearranging of atoms: e.g., H 2 +O 2  H 2 O No new atoms are created. Chemistry involves electrons only.
Notes 4-5 Radioactive Elements. Isotopes Atoms with same number of protons but different numbers of neutrons Example: Carbon-12 (normal carbon) versus.
Radioactivity Part 2 Nuclear Chemistry
Chapter 9: Nuclear Changes
Ch Applications and Effects of Nuclear Reactions
Radioactivity SPS3. Students will distinguish the characteristics and components of radioactivity. Differentiate among alpha and beta particles and gamma.
Transmutation- When the nucleus of one element changes to the nucleus of another Stability- Most elements are very stable - Those above atomic number.
Isotopes & Radioisotopes Section 3.6. What is an isotope? Two or more forms of an element. Each form has the same number of protons but a different number.
Radioactivity Chapter 4: Section 1.
Section 1Nuclear Changes Section 1: What is Radioactivity?
1 Chapter 9 Nuclear Radiation 9.1 Natural Radioactivity Copyright © 2009 by Pearson Education, Inc.
“The World We Create” NATS 101 Section 6 New Homework Posted in D2L. Due on Tuesday at 2 PM. 01/28.
Ch. 25 Nuclear Changes Begins on p. 35 of your PACKET.
10.1 Radioactivity Understand Radioactivity and distinguish between the types of decay.
Chapter 10: Nuclear Chemistry
Radioactive Decay.
Chapter 10 Nuclear Chemistry.
Atom’s Nucleus and Radioactivity 08 October 2015 Background Background Radioactivity and natural background exposure Radioactivity and natural background.
TOPIC: Benefits & Dangers of: Radioisotopes Do Now: Draw Bohrs Model for the Cl-35 isotope.
Unit 9, Chapter 30 Radioactivity. Vocabulary Terms  radioactive  alpha decay  beta decay  gamma decay  radiation  isotope  radioactive decay 
1. What is radioactivity? Radioactivity is the process in which an unstable atomic nucleus emits charged particles and energy. 2. What is a radioisotope?
Radioactivity It won’t make you glow in the dark but there are a lot of things it will do.
The Atomic Nucleus--Natural Radioactivity
Warm Up #2 Describe how the sun uses nuclear fusion for energy. Why is nuclear fusion able to be possible on the sun? How does nuclear fusion differ from.
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.
Chapter 25: Nuclear Chemistry
Chapter 9 Nuclear Radiation.
Chapter 9 – Radioactivity and Nuclear Reactions
By: Emily McGuire, Daysha McMullen, Ja’Bria Coleman, India Lockhart
Radioactivity Henri Becquerel discovered X-rays in As a result of his experiments, he also discovered other forms of rays that could be emitted.
Nuclear Chemistry.
Presentation transcript:

“The World We Create” NATS 101 Section 6 Don’t forget to turn in your homework! 02/02

UNIT 1: Energy Sources, Conventional or Alternative? Nuclear Energy

Ionizing Radiation It has enough energy to affect the structure of the atoms. Particularly, to remove electrons (ionize) and break bonds in molecules.

Radioactivity Some substances, such as uranium and plutonium, emit ionizing radiation spontaneously (you don’t need to split them). This property is called Radioactivity Geiger Counter

 Identify common sources of ionizing radiation in your surroundings.  Make better judgments about the risks of exposure to different sources of ionizing radiations;  Evaluate the truthfulness and implications of statements about radioactive materials. How much are we exposed?

True or False? 1. Human senses can detect radioactivity. 2. Elements such as Uranium and Radium are radioactive, but others such as Carbon and Lead are not. 4. Radioactive waste has very high temperatures. 3. Cancer cells are more sensitive to radiation than healthy cells. 5. Smokers are exposed to a highly dose of radioactivity than non-smokers. 6. The human body naturally contains small quantities of radioactive substances. 7. Exposure to radioactive materials causes serious burns. 8. Radioactive materials glow in the dark.

Radioactive Decay Radioactive isotopes are unstable and “decay” by emitting particles or energy. In this process, the chemical nature of the atoms can change (they may lose or gain protons). Radioactive decay can occur through three different types of processes, each of which generates a different type of ionizing radiation. Alpha decay Beta decay Gamma decay

Alpha Decay What is emitted? What happens to the nucleus?

Beta Decay =electron What is emitted? What happens to the nucleus?

Gamma Decay What is emitted? What happens to the nucleus?

Low Energy – Non-Ionizing High Energy – Ionizing (changes structure of matter) Low E- Non-Ionizing Electromagnetic Radiation High E- Ionizing

In Your Groups List ways you have been exposed to ionizing radiation today (in the form of either waves or particles). You have 2-3 minutes

Isotopes in Nature Most elements in nature are a mixture of isotopes. Some of them are radioactive, although most of them are not. Some Natural Radioisotopes NameSymbolAbundance (%) Hydrogen-3H31H Carbon-14C 14 6 Trace Potassium-40K Platinum-190Pt Thorium-232Th Uranium-238U

Background Radiation In our everyday lives, we are exposed to some amount of ionizing radiation. This amount varies by person, depending on your lifestyle and living conditions. Scientists call this type of radiation Background Radiation.

How Do We Measure Radiation? Because of its effect on living tissue, the amount of ionizing radiation to which people are exposed over time must be monitored. In the US, the radiation dose is measured using two basic units: RAD- measures the absorbed dose of radiation REM- measures the ionizing effect on living organisms Normal human exposures are measured in milirems 1 mrem = rem

Your Annual Dose  Calculate your individual annual ionizing- radiation dose (handout).  Compare your annual dose with the dose calculated by the other members of your team. Calculate the group average.  Compare the amount of radiation from natural sources (radon, cosmic, terrestrial, internal) to that from man-made sources? You have 10 minutes To convert your answer to rems from mrems: divide your value by 1000.

Sources of Ionizing Radiation US average yearly dose: 0.36 Rems.

Internal Sources Thyroid Iodine-131 Lungs Radon-222 Uranium-238 Plutonium-239 Krypton-85 Muscles Potassium-40 Cesium-137 Liver Cobalt-60 Bones Radium-226 Strontium-90 Phosphorus-32 Carbon-14

How Much Would It Take? DoseBodily Effect 0-25 remsNo noticeable effect 25-50Slight decrease in white blood cell count Significant decrease in white blood cell count Nausea, loss of hair Hemmoraging, ulcers, possible death >500Death

Biological Damage from Radiation Rapidly dividing cells, such as blood cells and sex cells, are more susceptible to radiation damage that are slowly dividing or non-dividing cells, such as nerve cells. Fetuses and children are more susceptible to radiation damage than are adults. Tissue type Most scientists assume that an increase in radiation dose produces a proportional increase in risk. Dose The more a given dose is spread out over time, the less harm it does. Exposure time The larger the body area exposed, the greater the damage. Area exposed

The Benefits Medical uses Diagnosis: - Tracers - PET scans Treatment: Cancer patients are “shot” with a beam of radiation in a localized area, killing most of the cells in the area.

“ The average radiation dose to people living within ten miles of the Three Mile Island Nuclear Plant was 8 mrem, and no more than 100 mrem to any single individual. ” American Nuclear Society “ Some 350,000 people involved in the initial clean-up of the Chernobyl nuclear plant in received average total body radiation doses of the order of 10 rems. ” International Atomic Energy Agency What is this telling you? What would your reaction be? “ The study of 120,000 Hiroshima survivors indicates that the risk of cancer increases linearly with the radiation dose. The dose at 1000 meters at Hiroshima is estimated at 400 rems. ” Hyperphysics (on-line resource)

True or False? 1. Human senses can detect radioactivity. 2. Elements such as Uranium and Radium are radioactive, but others such as Carbon and Lead are not. 4. Radioactive waste has very high temperatures. 3. Cancer cells are more sensitive to radiation than healthy cells. 5. Smokers are exposed to a highly dose of radioactivity than non-smokers. 6. The human body naturally contains small quantities of radioactive substances. 7. Exposure to radioactive materials causes serious burns. 8. Radioactive materials glow in the dark.

True or False? Human senses can detect radioactivity. Elements such as Uranium and Radium are radioactive, but others such as Carbon and Lead are not. Radioactive waste has very high temperatures. Cancer cells are more sensitive to radiation than healthy cells. Smokers are exposed to a highly dose of radioactivity than non-smokers. The human body naturally contains small quantities of radioactive substances. Exposure to radioactive materials causes serious burns. Radioactive materials glow in the dark.