(nucleonics) The activity of a radioisotope of an element per unit weight of element present in the sample. The activity per unit mass of a pure radionuclide. The activity per unit weight of a sample of radioactive material. In these three cases, specific activity can be expressed in such units as millicuries per gram, disintegrations per second per milligram, or counts per minute per milligram.
Specific activity
| Sci-Tech Dictionary: specific activity |
(spə′sif·ik ak′tiv·əd·ē)
| 5min Related Video: Specific activity |
| Medical Dictionary: specific activity |
n.
Radioactivity per unit mass of a stated element or compound.
| Wikipedia: Specific activity |
This article is about specific activity radioactivity. For the use in biochemistry, see Enzyme assay#Specific activity.
In nuclear sciences and technologies, "activity" is the SI quantity related to the phenomenon of natural and artificial radioactivity (the SI unit of "activity" is becquerel, Bq, while that of "specific activity" is Bq/kg). For its use in radiochemistry, see radioactivity. Moreover in thermodynamics, thermochemistry and electrochemistry the "activity" is the dimensionless ratio between the fugacity of a chemical species in actual to standard conditions.
One can use the experimentally measured specific activity to calculate the half-life of an element.
Starting from the definition of the half-life (T1/2) - with, N0, atoms of an element, the number of atoms, N, remaining after time, t, is giving by:
Take the natural log of both sides:
Take the derivative with respect to time, t:
Multiply both sides by N:
Which is:
dN/dt represents the decay rate of atoms. The negative sign shows that the rate is negative, so the number of atoms is decreasing with time as you would expect. Rearranging terms:
Example: determine the half-life of Rb-87
Suppose you have a gram of rubidium-87 and with your Geiger counter, you get a count rate which, after taking solid angle effects into account, is consistent with a decay rate of 3200 decays per second; this would correspond to a specific activity of 3.2e6 Bq/kg. The atomic weight is of the rubidium is 87, so one gram is one 87th of a mole, or N=6.9e21 atoms. Plugging in the numbers:
This entry is from Wikipedia, the leading user-contributed encyclopedia. It may not have been reviewed by professional editors (see full disclaimer)
Learn More
 | peak heart rate |
| Phobia (in medicine) |
| Project Costing (in accounting) |
Help us answer these
 | Is there be specific activities on Pluto? |
| How is a disease related to a specific activity? |
| Does maltase have a specific active site? |
Post a question - any question - to the WikiAnswers community:
Copyrights:
 |
 | Sci-Tech Dictionary. McGraw-Hill Dictionary of Scientific and Technical Terms. Copyright © 2003, 1994, 1989, 1984, 1978, 1976, 1974 by McGraw-Hill Companies, Inc. All rights reserved. Read more |
 |
| Medical Dictionary. The American Heritage® Stedman's Medical Dictionary Copyright © 2002, 2001, 1995 by Houghton Mifflin Company. Read more |
 |
| Wikipedia. This article is licensed under the Creative Commons Attribution/Share-Alike License. It uses material from the Wikipedia article "Specific activity". Read more |
Related answers
- What serving size of the specific foods to activate fat burning hormones?
- How do you calculate specific activity of salivary amylase?
ADVERTISEMENT
Answer these
- How do you calculate enzyme specific activity?
- Caries out specific activities in a cell?
- What specific physical activity are you into?
Mentioned in
- peak heart rate
- Phobia (in medicine)
- Project Costing (in accounting)
- task
- radiometric analysis (analytical chemistry)
- reflex(es)
- free float (industrial engineering)
- denature
- No-Action Letter (finance term)
- worktable
- attention
- cofactor
- Partial seizure (in medicine)
- work force
