What is Radiation? Our sun is a large source of radiation. Radiation is energy that travels through...
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Transcript of What is Radiation? Our sun is a large source of radiation. Radiation is energy that travels through...
What is Radiation?
Our sun is a large source of radiation. Radiation is energy that travels through space.
IONIZING RADIATION FROM NUCLEAR SOURCES
Ionizing radiation occurs in various forms principally alpha particles, beta particles, and gamma rays. All of these have various penetrating
abilities.
α, β, and γ penetrating power
Various Forms of Ionizing Radiation
• Alpha particles are super-energized helium nuclei; alpha sources are dangerous if inhaled or ingested; they have very limited penetration distance. They will not penetrate the skin.
• Beta particles are high energy, negatively-charged electrons; they are a skin, inhalation and ingestion hazard; They can be stopped by normal clothing.
• Gamma rays are highly energetic electromagnetic energy and can only be stopped by very dense materials.
• Neutrons are particles produced by the decay of some radioactive substances or through a process called nuclear fission. Some neutrons are high energy, fast moving particles while others are low velocity, low energy particles.
TYPE ALPHA BETA GAMMA NEUTRON
PENETRATING POWER
VERY SMALL
SMALL VERY GREAT
VERY GREAT
HAZARD INTERNAL INTERNAL/EXTERNAL
EXTERNAL EXTERNAL
SHIELDING MATERIAL
AIR OR PAPER
PLASTIC OR ALUMINUM
LEAD, STEEL OR CONCRETE
WATER, CONCRETE, STEEL
Radioactive particle
Symbol Atomic Mass
Change
Atomic No.
change
Alpha -4 -2
Beta 0 +1
Gamma 0 0
152Dy* ----> 152Dy + γ
WHEN AN ELEMENT LOSES A GAMMA RAY, IT IS STILL THE SAME ELEMENT.
23892U 234
90Th +
23490Th 234
91Pa + 23492U +
RADIOACTIVITY REFERS TO PARTICLES EMITTED BY UNSTABLE ATOMIC NUCLEI.
ATOMIC NUCLEI CONTAIN PROTONS AND NEUTRONS.
IF THE MIX OF PROTONS AND NEUTRONS IS NOT QUITE RIGHT, THE NUCLEI CAN BECOME UNSTABLE AND EMIT RADIOACTIVE PARTICLES AND IN SOME CASES BREAK APART.
THE PROCESS OF BREAKING APART IS CALLED NUCLEAR FISSION.
As atoms decay, they give up radiation and produce various unstable elements on their way to producing a stable element. Uranium-238 goes through 14 transformations on its way to becoming Lead-206.
The uranium decay chain
Uranium-238
∝ Rays Thorium-234
_ Rays Protactinium-234
_ Rays Uranium-234 ∝ Rays Thorium-230 ∝ Rays Radium-226 ∝ Rays Radon-222 ∝ Rays
Polonium-218 ∝ Rays Lead-214 _ Rays Bismuth-214 _ Rays Polonium-214 ∝ Rays Lead-210 _ Rays Bismuth-210 _ Rays Polonium-210 ∝ Rays Lead-206 stable
The time required for half of the atoms in any given quantity of a radioactive isotope to decay is the half-life of that isotope.
How dangerous a radioactive element is depends both on the amount of material, the half life, and the kind of radiation given off.
The shorter the half life, the more disintegrations per unit time will occur.
No. of half lives elapsed
Fraction Remaining Percentage Remaining
0 1/1 100
1 ½ 50
2 ¼ 25
3 1/8 12.5
N 1/2n 100(1/2n)
Isotope Half-life Use
Carbon 11 20 minutes Agriculture
Iodine-131 8 days Medical therapy
Krypton-85 11 years Industry
Cesium-137 30 years Treat cancers,
Sterilize garbage and medicinal wastes
Calibrate equipment
Irradiate blood for transfusions
Carbon-14 5730 years Test new drugs for harmful by-products
Carbon dating of ancient artifacts
Iodine-129 15.7 million years Check radioactivity counters at in-vitro diagnostic labs
Uranium-238 4.5 billion years Color brighteners in dental fixtures; dating old rocks
Radiation is not to be feared. Radiation safety is essential for its proper usage. Knowing the nature of a source of radiation, the source location
and its intensity allows us to take advantage of nuclear materials without subjecting ourselves and others to the negative consequences
we fear.
Radiation signage
EVERYTHING AND EVERYBODY AROUND YOU IS RADIOACTIVE TO SOME EXTENT.
THE UNIT WE USE TO MEASURE RADIATION IS THE rem.
ONE rem IS THE EQUIVALENT OF YOUR BODY ABSORBING ONE TWO MILLIONTH OF A CALORIE OF ENERGY.
COMPARED TO THE RADIATION YOU NORMALLY ABSORB, THAT’S A LARGE AMOUNT.
SO WE USE THE mrem OR millirem (1/1000 of a rem) OR WE CAN USE THE microrem.
THE NATURALLY OCCURING RADIOACTIVE MATERIALS IN OUR BODIES EXPOSE US TO ABOUT 25 mrem PER YEAR.
NO ILL EFFECTS HAVE BEEN SEEN FOR PEOPLE RECEIVING 5,000 mrem PER YEAR.
ON A SHORT TERM BASIS, IT TAKES ABOUT 300,000 mrem TO CAUSE A FATALITY.
YOU ARE EXPOSED TO ABOUT 200 mrem FROM AIR EACH YEAR.
YOUR EXPOSURE INCREASES THE HIGHER ABOVE SEA LEVEL YOU LIVE.
A DENTAL X-RAY EXPOSES YOU TO ABOUT 1 mrem.
RADIATION REACTS WITH MATTER BY KNOCKING ELECTRONS OFF ATOMS AND FORMING IONS.
THE EFFECT ON LIVING CELLS CAN VARY.
1. CELLS COULD BE UNDAMAGED.
2. CELLS ARE DAMAGED. THE DAMAGE IS REPAIRED, AND CELLS OPERATE NORMALLY.
3. CELLS ARE DAMAGED. THE DAMAGE IS REPAIRED, BUT THE CELLS OPERATE ABNORMALLY.
4. CELLS DIE AS A RESULT OF THE DAMAGE.
THE RISK FROM RADIATION IS HOW MUCH YOU GET ALL AT ONCE.
300,000 mrem MIGHT BE FATAL IF RECEIVED ALL AT ONCE, BUT SPREAD OVER A NUMBER OF YEARS, IT MIGHT CAUSE NO DAMAGE AT ALL.
DNA DAMAGE CAN CAUSE TUMORS OR CANCER.
THE DECREASE IN LIFE EXPECTANCY FROM 1 mrem IS 1.2 MINUTES – ABOUT THE SAME AS:
-CROSSING THE STREET THREE TIMES
-THREE PUFFS FROM A CIGARETTE
-10 EXTRA CALORIES FOR AN OVERWEIGHT PERSON
THE AVERAGE PERSON RECEIVES ABOUT 360 mrem PER YEAR.
THE DECREASE IN LIFE EXPECTANCY FROM 1 mrem IS 1.2 MINUTES – ABOUT THE SAME AS:
-CROSSING THE STREET THREE TIMES
-THREE PUFFS FROM A CIGARETTE
-10 EXTRA CALORIES FOR AN OVERWEIGHT PERSON
THE AVERAGE PERSON RECEIVES ABOUT 360 mrem PER YEAR.
THE MOST COMMON WAY TO DETECT RADIATION IS USING A GEIGER COUNTER.
The detector is a tube with a wire running down the center. A high voltage (600v) is applied between the wire and the envelope. When ionizing radiation hits the gas in the tube, ions are formed, and a current pulse flows through the meter. The number of pulses is a measure of radiation intensity.
Other devices include film badges and scintillation counters.
HOW CAN YOU AVOID EXPOSURE TO IONIZING RADIATION?
1)TIME – THE SHORTER THE, TIME THE LESS THE DANGER
2)DISTANCE – EXPOSURE DECREASES WITH THE SQUARE OF THE DISTANCE
3)SHIELDING – DIFFERENT KINDS OF SHIELDING STOP DIFFERENT KINDS OF RADIATION
YOU CAN BE EXPOSED TO IONIZING RADIATION
1)NATURALLY2)HANDLING RADIOACTIVE MATERIAL