Petropoulos, in Naturally Occurring Radioactive Materials in Construction, 2017 5.4.1 Basic information on radon and progeny. Radon is a radioactive noble gas formed by the decay of radium.As discussed in Chapter 3 two isotopes are relevant for the radioactive exposure, namely 222 Rn (“radon (Rn)”) and 220 Rn (“thoron (Tn)”). The radon isotopes form.
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| Name: Radium | Boiling Point: 1809°K, 1536°C, 2797°F Melting Point:973°K, 700°C, 1292°F Electrons Energy Level: 2, 8, 18, 32, 18, 8, 2 Isotopes: 33 + None Stable Heat of Vaporization: unknown Heat of Fusion: 37 kJ/mol Density: 5.5 g/cm3 @ 300°K Specific Heat: 0.12 J/g°K Atomic Radius:unknown Ionic Radius: 1.43Å Electronegativity: 0.9 (Pauling); 1 (Allrod Rochow) Vapor Pressure: 327 Pa @ 700°C |
| 4 Be 9.012 | Radium (Latin radius, ray) was discovered by Marie Sklodowska Curie, a Polish chemist, and Pierre Curie, a French chemist, in 1898, from pitchblende, a mineral known as urannite, from North Bohemia an area around Jachymov. Marie Curie obtained radium from pitchblende, a material that contains uranium, after noticing that unrefined pitchblende was more radioactive than the uranium that was separated from it. She reasoned that pitchblende must contain at least one other radioactive element. They then separated out a radioactive mixture mostly consisting of barium which gave a brilliant red flame color and spectral lines which had never been documented before. Curie needed to refine several tons of this mixture in order to obtain tiny amounts of radium and polonium, another radioactive element discovered by Curie. One ton of uranium ore contains only about 0.14 grams of radium. In 1902 radium was isolated into its pure metal by Curie and Andre-Louis Debierne through the electrolysis of a pure radium chloride solution by using a mercury cathode and distilling in an atmosphere of hydrogen gas. Today, radium can be obtained as a byproduct of refining uranium and is usually sold as radium chloride (RaCl2) or radium bromide (RaBr2) and not as a pure material. |
| 12 Mg 24.30 | |
| 20 Ca 40.07 | |
| 38 Sr 87.62 | |
| 56 Ba 137.3 | |
| 88 Ra 226.0 |
1s2 2s2p6 3s2p6d104s2p6d10f14 5s2p6d106s2p6 7s2
|
Its appearance is almost pure white, but it readily oxidizes on exposure to air,turning black. Radium is an alkaline earth metal that that is found in trace amountsin uranium ores. It is extremely radioactive. Its most stable isotope, 226Ra,has a half-life of of 1602 years and decays into radon gas.
Marie Sklodowska & Pierre Curie
The heaviest of the alkaline earth metals, radium is intensely radioactive andresembles barium in its chemical behavior. This metal is found in minute quantitiesin the uranium ore pitchblende, and various other uranium minerals. Radiumpreparations are remarkable for maintaining themselves at a higher temperature than theirsurroundings, and for their radiations, which are of three kinds: alpha particles, betaparticles, and gamma rays. Radium also produces neutrons when mixed with beryllium.
| 1s2 | |||
| 2s2 | 2p6 | ||
| 3s2 | 3p6 | 3d10 | |
| 4s2 | 4p6 | 4d10 | 4f14 |
| 5s2 | 5p6 | 5d10 | |
| 6s2 | 6p6 | ||
| 7s2 |
When freshly prepared, pure radium metal is brilliant white, but blackens when exposedto air (probably due to nitride formation). Radium is luminescent (giving a faint
Radium is a decay product of uranium and is therefore found in all uranium-bearingores. Radium was originally acquired from pitchblende ore from Joachimsthal, Bohemia(One metric ton of pitchblende yields 0.0001 grams of radium). Carnotite sands inColorado provide some of the element, but richer ores are found in the Democratic Republicof the Congo, the Great Lakes area of Canada and can also be extracted from uraniumprocessing waste. Large uranium deposits are located in Ontario, New Mexico, Utah,Virginia, Australia, and in other places.
Some of the practical uses of radium are derived from its radiative properties. More recently discovered radioisotopes, such as 60Co and 137Cs, arereplacing radium in even these limited uses because several of these are much morepowerful, they are safer to handle, and that they are more concentrated.
- Formerly used in self-luminous paints for watches, nuclear panals, aircraft switches, clocks, and instrument dials. More than 100 former watch dial painters who used their lips to shape the paintbrush died from the radiation. Soon afterward, the adverse effects of radioactivity became widely known. Radium was still used in dials as late as the 1950's. Objects painted with this paint must be handled properly. Although tritium's beta radiation is potentially dangerous if ingested, it has replaced radium in these applications.
- When mixed with beryllium it is a neutron source for physics experiments.
- Radium (usually in the form of radium chloride) is used in medicind to produce radon gas which in turn is used as a cancer treatment.
- Radium was also put in many foods for taste and as a preservative, but also exposed many people to radiation.
- 223Ra is currently under investigation for use in medicine as cancer treatment of bone metastasis.
- One unit for radioactivity, the non-Si curie, is based on the radioactivity of 226Ra.
- At the turn of the 20th century radium was a popular additive in products like toothpaste, hair creams, and even food items due to its supposed curative powers. Such products soon fell out of vogue, and were prohibited by authorities in many countries, after it was discovered they could have real and serious adverse health effects.
- Spas featuring radium-rich water are still occasionally touted as beneficial, such as those in Misasa, Tottori, Japan and Radium Hot Springs, British Columbia, Canada.
Its compounds color flames crimson carmine (rich
| Radium Fluoride, RaF2 | Radium Chloride, RaCl2 |
| Radium Bromide, RaBr2 | Radium Iodide, RaI2 |
| Radium Oxide, RaO | Radium Nitride, Ra3N2 |
Radium has 33 different known isotopes, four of which are found in nature, with 226Rabeing the most common. 223Ra, 224Ra, 226Ra and 228Raare all generated in the decay of either U or Th. 226Ra is aproduct of 238U decay, and is the longest-lived isotope of radium with ahalf-life of 1602 years; next longest is 228Ra, a product of 232Thbreakdown, with a half-life of 6.7 years.
| Isotope | Atomic Mass | Half-Life |
|---|---|---|
| Ra202 | 0.7 ms | |
| Ra203 | 1 ms | |
| Ra204 | 204.006 | 59 ms |
| Ra205 | 205.006 | 210 ms |
| Ra206 | 206.004 | 0.24 seconds |
| Ra207 | 207.004 | 1.3 seconds |
| Ra208 | 208.002 | 1.3 seconds |
| Ra209 | 209.002 | 4.6 seconds |
| Ra210 | :210.000 | 3.7 seconds |
| Ra211 | 211.0009 | 13 seconds |
| Ra212 | 211.9998 | 13 seconds |
| Ra213 | 213.0003 | 2.74 minutes |
| Ra214 | 214. | 2.46 seconds |
| Ra215 | 215.0027 | 1.59 ms |
| Ra216 | 216.0035 | 182 ns |
| Ra217 | 217.0063 | 1.6 us |
| Ra218 | 218.0071 | 25.6 us |
| Ra219 | 219.0101 | 10 ms |
| Ra220 | 220.011 | 18 ms |
| Ra221 | 221.0139 | 28 seconds |
| Ra222 | 222.0154 | 38 seconds |
| Ra223 | 223.0185 | 11.435 days |
| Ra224 | 224.0202 | 3.66 days |
| Ra225 | 225.0236 | 14.9 days |
| Ra226 | 226.0254 | 1600 years |
| Ra227 | 227.0292 | 42.2 minutes |
| Ra228 | 228.0311 | 5.75 years |
| Ra229 | 229.0348 | 4 minutes |
| Ra230 | 230.0371 | 93 minutes |
| Ra231 | 231.041 | 103 seconds |
| Ra232 | 232.044 | 250 seconds |
| Ra233 | 233.048 | 30 seconds |
| Ra234 | 234.051 | 30 seconds |
The decay products of radium were known as Radium A, B, C, etc. These are nowknown to be isotopes of other elements as follows:
| Isotope | |
| Radium Emanation | 222Rn |
| Radium A | 218Po |
| Radium B | 214Pb |
| Radium C | 214Bi |
| Radium C1 | 214Po |
| Radium C2 | 210Tl |
| Radium D | 210Pb |
| Radium E | 210Bi |
| Radium F | 210Po |
On February 4, 1936 radium E became the first radioactive element to be madesynthetically.
During the 1930s it was found that workers exposure to radium by handling luminescentpaints caused serious health effects which included sores, anemia and bone cancer. This use of radium was stopped soon afterward. This is because radium is treated ascalcium by the body, and deposited in the bones, where radioactivity degrades marrow, andcan mutate bone cells. The litigation and ultimate deaths of five 'Radium Girl'employees who had used radium-based luminous paints on the dials of watches and clocks hada significant impact on the formulation of occupational disease labor law.
Its decay occurs in at least seven stages; the successive main products have beenstudied and were called radium emanation or exradio (this is radon), radium A (polonium),radium B (lead), radium C (bismuth), etc. The radon is a heavy gas and the laterproducts are solids. These products are themselves radioactive elements, each withan atomic weight a little lower than its predecessor.
Radium loses about 1% of its activity in 25 years, being transformed into elements oflower atomic weight with lead being a final product of disintegration.
The SI unit of radioactivity is the becquerel (Bq), equal to one disintegration persecond. The curie is a non-SI unit defined as that amount of radioactivity which hasthe same disintegration rate as 1 gram of Ra-226 (3.7 x 1010 disintegrationsper second, or 37 GBq).
Handling of radium has since been blamed for Marie Curie's premature death. Thelab notebooks used by the Curies are too highly contaminated to be safely handled today.
| Radium is highly radioactive and its decay product, radon gas, is also radioactive. Radium is over one million times more radioactive than the same mass of uranium. Since radium is chemically similar to calcium, it has the potential to cause great harm by replacing it in bones. Inhalation, injection, ingestion or body exposure to radium can cause cancer and other disorders. |
Stored radium should be ventilated to prevent accumulation of radon.
Emitted energy from the decay of radium ionizes gases, affects photographic plates,causes sores on the skin, and produces many other detrimental effects.
| Radium Data |
Atomic Radius (Å): unknown Electrochemical Equivalents: 4.2165 g/amp-hr Atomic Mass Average: 226.0254 |
Radium 3 1 3 0 Meters
(L. radius, ray) Radium was discovered in 1898 by Mme. Curie in the pitchblende oruraninite of North Bohemia, where it occurs. There is about 1 g of radium in 7 tons ofpitchblende. The element was isolated in 1911 by Mme. Curie and Debierne by; theelectrolysis of a solution of pure radium chloride, employing a mercury cathode; ondistillation in an atmosphere of hydrogen this amalgam yielded the pure metal. Originally,radium was obtained from the rich pitchblende ore found in Joachimsthal, Bohemia. Thecarnotite sands of Colorado furnish some radium, but richer ores are found in the Republicof Zaire and the Great Lake region of Canada. Radium is present in all uranium minerals,and could be extracted, if desired, from the extensive wastes of uranium processing. Largeuranium deposits are located in Ontario, New Mexico, Utah, Australia, and elsewhere.Radium is obtained commercially as the bromide and chloride; it is doubtful if anyappreciable stock of the isolated element now exists. The pure metal is brilliant whitewhen freshly prepared, but blackens on exposure to air, probably due to formation of thenitride. It exhibits luminescence, as do its slats; it decomposes in water and is somewhatmore volatile than barium. It is a member of the alkaline-earth group of metals. Radiumimparts a carmine red color to a flame. Radium emits alpha, beta, and gamma rays and whenmixed with beryllium produce neutrons. One gram of 226Ra undergoes 3.7 x 1010disintegrations per s. The curie is defined as that amount of radioactivity which has thesame disintegration rate as 1 g of 226Ra. Twenty five isotopes are now known; radium 226,the common isotope, has a half-life of 1600 years. One gram of radium produces about0.0001 ml (stp) of emanation, or radon gas, per day. This is purged from the radium andsealed in minute tubes, which are used in the treatment of cancer and other diseases.Radium is used in the producing of self-luminous paints, neutron sources, and in medicinefor the treatment of disease. Some of the more recently discovered radioisotopes, such as60Co, are now being used in place of radium. Some of these sources are much more powerful,and others are safer to use. Radium loses about 1% of its activity in 25 years, beingtransformed into elements of lower atomic weight. Lead is a final product ofdisintegration. Stored radium should be ventilated to prevent build-up of radon.Inhalation, injection, or body exposure to radium can cause cancer and other bodydisorders. The maximum permissible burder in the total body for 226Ra is 7400 becquerel.
Radium 3 1 3 0 2
Source: CRC Handbook of Chemistry and Physics, 1913-1995. DavidR. Lide, Editor in Chief. Author: C.R. Hammond
Radium was discovered by Marie Sklodowska Curie, a Polish chemist, and Pierre Curie, aFrench chemist, in 1898. Marie Curie obtained radium from pitchblende, a material thatcontains uranium, after noticing that unrefined pitchblende was more radioactive than theuranium that was separated from it. She reasoned that pitchblende must contain at leastone other radioactive element. Curie needed to refine several tons of pitchblende in orderto obtain tiny amounts of radium and polonium, another radioactive element discovered byCurie. One ton of uranium ore contains only about 0.14 grams of radium. Today, radium canbe obtained as a byproduct of refining uranium and is usually sold as radium chloride(RaCl2) or radium bromide (RaBr2) and not as a pure material.
Radium's most stable isotope, radium-226, has a half-life of about 1600 years. Itdecays into radon-222 through alpha decay or into lead-212 by ejecting a carbon-14nucleus.
The Curie, a unit used to describe the activity of a radioactive substance, is based onradium-226. It is equal to the number of atoms in a one gram sample of radium-226 thatwill decay in one second, or 37,000,000,000 decays per second.
Radium 3 1 3 0
Radium had been used to make self-luminous paints for watches, aircraft instrumentdials and other instrumentation, but has largely been replaced by cobalt-60, a lessdangerous radioactive source. A mixture of radium and beryllium will emit neutrons and isused as a neutron source. Radium is used to produce radon, a radioactive gas used to treatsome types of cancer. A single gram of radium-226 will produce 0.000l milliliters of radona day.
Radium 3 1 3 0 X 4
Radium is about one million times more active than uranium. The lab notebooks used bythe Curies are too highly contaminated to be safely handled today.