Input interpretation
![elements | meteorite abundance](../image_source/5e92feb160300faea64db85821c4eba9.png)
elements | meteorite abundance
Summary
![median | 1.9×10^-5 mass% highest | 40 mass% (oxygen) lowest | 0 mass% (29 elements) distribution | | (based on 107 values; 11 unavailable)](../image_source/fff888f6e8aeb6b2119233491674e28a.png)
median | 1.9×10^-5 mass% highest | 40 mass% (oxygen) lowest | 0 mass% (29 elements) distribution | | (based on 107 values; 11 unavailable)
Entities with missing values
![helium | neon | argon | krypton | xenon | polonium | radon | francium | radium | actinium | protactinium (total: 11)](../image_source/3895067fe19c2dd1e98e811dd95dd5e6.png)
helium | neon | argon | krypton | xenon | polonium | radon | francium | radium | actinium | protactinium (total: 11)
Distribution plots
![(meteorite abundance in mass percent)](../image_source/7f1f4aa8481151cfcf3e7a17931ca8e4.png)
(meteorite abundance in mass percent)
Meteorite abundance rankings
![1 | oganesson | 0 mass% 2 | tennessine | 0 mass% 3 | livermorium | 0 mass% 4 | moscovium | 0 mass% 5 | flerovium | 0 mass% 6 | nihonium | 0 mass% 7 | copernicium | 0 mass% 8 | roentgenium | 0 mass% 9 | darmstadtium | 0 mass% 10 | meitnerium | 0 mass% ⋮ | | 98 | aluminum | 0.91 mass% 99 | calcium | 1.1 mass% 100 | nickel | 1.3 mass% 101 | carbon | 1.5 mass% 102 | hydrogen | 2.4 mass% 103 | sulfur | 4 mass% 104 | magnesium | 12 mass% 105 | silicon | 14 mass% 106 | iron | 22 mass% 107 | oxygen | 40 mass% (based on 107 values; 11 unavailable)](../image_source/e9ae68592856119f006d46317950795c.png)
1 | oganesson | 0 mass% 2 | tennessine | 0 mass% 3 | livermorium | 0 mass% 4 | moscovium | 0 mass% 5 | flerovium | 0 mass% 6 | nihonium | 0 mass% 7 | copernicium | 0 mass% 8 | roentgenium | 0 mass% 9 | darmstadtium | 0 mass% 10 | meitnerium | 0 mass% ⋮ | | 98 | aluminum | 0.91 mass% 99 | calcium | 1.1 mass% 100 | nickel | 1.3 mass% 101 | carbon | 1.5 mass% 102 | hydrogen | 2.4 mass% 103 | sulfur | 4 mass% 104 | magnesium | 12 mass% 105 | silicon | 14 mass% 106 | iron | 22 mass% 107 | oxygen | 40 mass% (based on 107 values; 11 unavailable)
Unit conversions for median meteorite abundance 1.9×10^-5 mass%
![0.19 ppmm (parts per million by mass)](../image_source/25ce8f352f2e4c19b86ecb3c04aa0fe3.png)
0.19 ppmm (parts per million by mass)
![190 ppbm (parts per billion by mass)](../image_source/78d6dc508bd903521c9052d4fe06a5ca.png)
190 ppbm (parts per billion by mass)
Corresponding quantity
![Corresponding mass ratio: | 0.19 µg/g (micrograms per gram) | 0.019 mg/100 g (milligrams per hundred grams) | 0.19 g/t (grams per metric ton)](../image_source/af1504a1f7b62ac7cb6f955acc1659c3.png)
Corresponding mass ratio: | 0.19 µg/g (micrograms per gram) | 0.019 mg/100 g (milligrams per hundred grams) | 0.19 g/t (grams per metric ton)