Why did this couple win the Nobel Prize?
Pierre and Marie Curie, a husband and wife team of physicists, discovered the spontaneous emission of particles from certain elements. They called this phenomenon "radioactivity." Together they won three Nobel prizes, and the element curium was named in their honor.
Radioactivity is the tendency of certain atoms to decay into lighter atoms, a process that emits energy. Radioactivity also provides a way to find the absolute age of a rock. First, we need to know about radioactive decay.
Some isotopes are radioactive; radioactive isotopes are unstable and spontaneously change by gaining or losing particles. Two types of radioactive decay are relevant to dating Earth materials (Table below):
|Particle||Composition||Effect on Nucleus|
|Alpha||2 protons, 2 neutrons||The nucleus contains two fewer protons and two fewer neutrons.|
|Beta||1 electron||One neutron decays to form a proton and an electron. The electron is emitted.|
The radioactive decay of a parent isotope (the original element) leads to the formation of stable daughter product, also known as daughter isotope. As time passes, the number of parent isotopes decreases and the number of daughter isotopes increases (Figure below).
A parent emits an alpha particle to create a daughter.
An animation of radioactive decay: http://lectureonline.cl.msu.edu/~mmp/applist/decay/decay.htm.
Radioactive materials decay at known rates, measured as a unit called half-life. The half-life of a radioactive substance is the amount of time it takes for half of the parent atoms to decay. This is how the material decays over time (see Table below).
|No. of half lives passed||Percent parent remaining||Percent daughter produced|
Pretend you find a rock with 3.125% parent atoms and 96.875% daughter atoms. How many half lives have passed? If the half-life of the parent isotope is 1 year, then how old is the rock? The decay of radioactive materials can be shown with a graph (Figure below).
Decay of an imaginary radioactive substance with a half-life of one year.
An animation of half-life: http://einstein.byu.edu/~masong/htmstuff/Radioactive2.html.
Notice how it doesn’t take too many half lives before there is very little parent remaining and most of the isotopes are daughter isotopes. This limits how many half lives can pass before a radioactive element is no longer useful for dating materials. Fortunately, different isotopes have very different half lives.
Radiometric decay is exponential. Learn how exponential growth and decay can be described mathematically in this video: http://www.youtube.com/watch?v=UbwMW7Q6F3E (4:46).
- A half life is the time it takes for half of the parent isotopes of an element to change to daughter isotopes.
- With alpha decay, the nucleus loses two protons and two neutrons; with beta decay only one electron is lost.
- Radiometric decay is exponential.
Use this resource to answer the questions that follow.
- What is radiation?
- How is radiation detected?
- What happens to the ratio between protons and neutrons between smaller atoms and larger atoms?
- Why does a large nucleus lose neutrons?
- What is alpha decay and what charge and mass does it have?
- What is beta decay and what charge and mass does it have?
- What is gamma radiation and what charge and mass does it have?
- What type of radiation does U-238 undergo? What does it lose?
- Why does U-238 become Th-234?
- Why does Cs-137 become Ba-137?
- Why does Na-11 become Ne-12?
- Describe the two types of radioactive decay that are relevant to dating earth materials.
- For how many half lives is a set of parent and daughter isotopes useful as a system of dating?
- What does it mean that radioactive decay is exponential?