All Moon Ores

A ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Pyerite and Mexallon .

When chunks of ore mined out of moons yield above-average densities of Loparite, the ore is called Bountiful Loparite and reprocessing returns approximately 15% higher quantities of useful material. An exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.

When chunks of ore mined out of moons yield above-average densities of Monazite, the ore is called Bountiful Monazite and reprocessing returns approximately 15% higher quantities of useful material. An exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.

When chunks of ore mined out of moons yield above-average densities of Xenotime, the ore is called Bountiful Xenotime and reprocessing returns approximately 15% higher quantities of useful material. An exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.

When chunks of ore mined out of moons yield above-average densities of Ytterbite, the ore is called Bountiful Ytterbite and reprocessing returns approximately 15% higher quantities of useful material. An exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.

When chunks of ore mined out of moons yield above-average densities of Bitumens, the ore is called Brimful Bitumens and reprocessing returns approximately 15% higher quantities of useful material. A ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite.

When chunks of ore mined out of moons yield above-average densities of Coesite, the ore is called Brimful Coesite and reprocessing returns approximately 15% higher quantities of useful material. A ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite.

When chunks of ore mined out of moons yield above-average densities of Sylvite, the ore is called Brimful Sylvite and reprocessing returns approximately 15% higher quantities of useful material. A ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite.

When chunks of ore mined out of moons yield above-average densities of Zeolites, the ore is called Brimful Zeolites and reprocessing returns approximately 15% higher quantities of useful material. A ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite.

A rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.

An uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.

A rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.

A common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.

A ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Pyerite and Mexallon .

A ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Pyerite and Mexallon . This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Loparite, the ore is called Bountiful Loparite and reprocessing returns approximately 15% higher quantities of useful material. An exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Monazite, the ore is called Bountiful Monazite and reprocessing returns approximately 15% higher quantities of useful material. An exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Xenotime, the ore is called Bountiful Xenotime and reprocessing returns approximately 15% higher quantities of useful material. An exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Ytterbite, the ore is called Bountiful Ytterbite and reprocessing returns approximately 15% higher quantities of useful material. An exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Bitumens, the ore is called Brimful Bitumens and reprocessing returns approximately 15% higher quantities of useful material. A ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Coesite, the ore is called Brimful Coesite and reprocessing returns approximately 15% higher quantities of useful material. A ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Sylvite, the ore is called Brimful Sylvite and reprocessing returns approximately 15% higher quantities of useful material. A ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Zeolites, the ore is called Brimful Zeolites and reprocessing returns approximately 15% higher quantities of useful material. A ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite. This material is compressed and a much more compact form of the original material.

A rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. This material is compressed and a much more compact form of the original material.

An uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. This material is compressed and a much more compact form of the original material.

A rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. This material is compressed and a much more compact form of the original material.

A common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. This material is compressed and a much more compact form of the original material.

A ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Pyerite and Mexallon . This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Cobaltite, the ore is called Copious Cobaltite and reprocessing returns approximately 15% higher quantities of useful material. A common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Euxenite, the ore is called Copious Euxenite and reprocessing returns approximately 15% higher quantities of useful material. A common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Scheelite, the ore is called Copious Scheelite and reprocessing returns approximately 15% higher quantities of useful material. A common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Titanite, the ore is called Copious Titanite and reprocessing returns approximately 15% higher quantities of useful material. A common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. This material is compressed and a much more compact form of the original material.

A common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. This material is compressed and a much more compact form of the original material.

Bitumens ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Bitumens and reprocessing such ores will yield twice the normal volume of useful material. A ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite. This material is compressed and a much more compact form of the original material.

Coesite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Coesite and reprocessing such ores will yield twice the normal volume of useful material. A ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite. This material is compressed and a much more compact form of the original material.

Sylvite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Sylvite and reprocessing such ores will yield twice the normal volume of useful material. A ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite. This material is compressed and a much more compact form of the original material.

Zeolites ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Zeolites and reprocessing such ores will yield twice the normal volume of useful material. A ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite. This material is compressed and a much more compact form of the original material.

Carnotite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Carnotite and reprocessing such ores will yield twice the normal volume of useful material. A rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. This material is compressed and a much more compact form of the original material.

Cinnabar ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Cinnabar and reprocessing such ores will yield twice the normal volume of useful material. A rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. This material is compressed and a much more compact form of the original material.

Pollucite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Pollucite and reprocessing such ores will yield twice the normal volume of useful material. A rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. This material is compressed and a much more compact form of the original material.

Zircon ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Zircon and reprocessing such ores will yield twice the normal volume of useful material. A rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Chromite, the ore is called Lavish Chromite and reprocessing returns approximately 15% higher quantities of useful material. An uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Otavite, the ore is called Lavish Otavite and reprocessing returns approximately 15% higher quantities of useful material. An uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of sperrylite, the ore is called lavish sperrylite and reprocessing returns approximately 15% higher quantities of useful material. An uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Vanadinite, the ore is called Lavish Vanadinite and reprocessing returns approximately 15% higher quantities of useful material. An uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. This material is compressed and a much more compact form of the original material.

An exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. This material is compressed and a much more compact form of the original material.

An exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. This material is compressed and a much more compact form of the original material.

An uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. This material is compressed and a much more compact form of the original material.

A rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Carnotite, the ore is called Replete Carnotite and reprocessing returns approximately 15% higher quantities of useful material. A rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Cinnabar, the ore is called Replete Cinnabar and reprocessing returns approximately 15% higher quantities of useful material. A rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Pollucite, the ore is called Replete Pollucite and reprocessing returns approximately 15% higher quantities of useful material. A rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Zircon, the ore is called Replete Zircon and reprocessing returns approximately 15% higher quantities of useful material. A rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. This material is compressed and a much more compact form of the original material.

A common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. This material is compressed and a much more compact form of the original material.

Chromite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Chromite and reprocessing such ores will yield twice the normal volume of useful material. An uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons. This material is compressed and a much more compact form of the original material.

Otavite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called shimmering otavite and reprocessing such ores will yield twice the normal volume of useful material. An uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases. This material is compressed and a much more compact form of the original material.

Sperrylite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Sperrylite and reprocessing such ores will yield twice the normal volume of useful material. An uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. This material is compressed and a much more compact form of the original material.

Vanadinite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Vanadinite and reprocessing such ores will yield twice the normal volume of useful material. An uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. This material is compressed and a much more compact form of the original material.

Loparite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Loparite and reprocessing such ores will yield twice the normal volume of useful material. An exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons. This material is compressed and a much more compact form of the original material.

Monazite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Monazite and reprocessing such ores will yield twice the normal volume of useful material. An exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits. This material is compressed and a much more compact form of the original material.

Xenotime ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Xenotime and reprocessing such ores will yield twice the normal volume of useful material. An exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. This material is compressed and a much more compact form of the original material.

Ytterbite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Ytterbite and reprocessing such ores will yield twice the normal volume of useful material. An exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. This material is compressed and a much more compact form of the original material.

An uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits. This material is compressed and a much more compact form of the original material.

A ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Pyerite and Mexallon . This material is compressed and a much more compact form of the original material.

A common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. This material is compressed and a much more compact form of the original material.

Cobaltite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Cobaltite and reprocessing such ores will yield twice the normal volume of useful material. A common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials. This material is compressed and a much more compact form of the original material.

Euxenite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Euxenite and reprocessing such ores will yield twice the normal volume of useful material. A common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials. This material is compressed and a much more compact form of the original material.

Scheelite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Scheelite and reprocessing such ores will yield twice the normal volume of useful material. A common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials. This material is compressed and a much more compact form of the original material.

Titanite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Titanite and reprocessing such ores will yield twice the normal volume of useful material. This material was often used to manufacture high-status weapons in ancient times. A common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials. This material is compressed and a much more compact form of the original material.

An uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates. This material is compressed and a much more compact form of the original material.

An exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases. This material is compressed and a much more compact form of the original material.

An exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates. This material is compressed and a much more compact form of the original material.

A ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Pyerite and Mexallon . This material is compressed and a much more compact form of the original material.

A rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates. This material is compressed and a much more compact form of the original material.

When chunks of ore mined out of moons yield above-average densities of Cobaltite, the ore is called Copious Cobaltite and reprocessing returns approximately 15% higher quantities of useful material. A common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.

When chunks of ore mined out of moons yield above-average densities of Euxenite, the ore is called Copious Euxenite and reprocessing returns approximately 15% higher quantities of useful material. A common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.

When chunks of ore mined out of moons yield above-average densities of Scheelite, the ore is called Copious Scheelite and reprocessing returns approximately 15% higher quantities of useful material. A common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.

When chunks of ore mined out of moons yield above-average densities of Titanite, the ore is called Copious Titanite and reprocessing returns approximately 15% higher quantities of useful material. A common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.

A common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.

Bitumens ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Bitumens and reprocessing such ores will yield twice the normal volume of useful material. A ubiquitous ore commercially mined from moons, Bitumens are very useful as they yield good quantities of Hydrocarbons used as basic elements of some advanced materials. Bitumen ores will also yield Mexallon and Pyerite.

Coesite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Coesite and reprocessing such ores will yield twice the normal volume of useful material. A ubiquitous ore commercially mined from moons, Coesite is very useful as it yields good quantities of Silicates used as basic elements of some advanced materials. Coesite ores will also yield Mexallon and Pyerite.

Sylvite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Sylvite and reprocessing such ores will yield twice the normal volume of useful material. A ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Mexallon and Pyerite.

Zeolites ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glistening Zeolites and reprocessing such ores will yield twice the normal volume of useful material. A ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Mexallon and Pyerite.

Carnotite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Carnotite and reprocessing such ores will yield twice the normal volume of useful material. A rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.

Cinnabar ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Cinnabar and reprocessing such ores will yield twice the normal volume of useful material. A rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.

Pollucite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Pollucite and reprocessing such ores will yield twice the normal volume of useful material. A rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.

Zircon ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Glowing Zircon and reprocessing such ores will yield twice the normal volume of useful material. A rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.

When chunks of ore mined out of moons yield above-average densities of Chromite, the ore is called Lavish Chromite and reprocessing returns approximately 15% higher quantities of useful material. An uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.

When chunks of ore mined out of moons yield above-average densities of Otavite, the ore is called Lavish Otavite and reprocessing returns approximately 15% higher quantities of useful material. An uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.

When chunks of ore mined out of moons yield above-average densities of sperrylite, the ore is called lavish sperrylite and reprocessing returns approximately 15% higher quantities of useful material. An uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.

When chunks of ore mined out of moons yield above-average densities of Vanadinite, the ore is called Lavish Vanadinite and reprocessing returns approximately 15% higher quantities of useful material. An uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.

An exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.

An exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.

An uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.

A rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.

When chunks of ore mined out of moons yield above-average densities of Carnotite, the ore is called Replete Carnotite and reprocessing returns approximately 15% higher quantities of useful material. A rare ore commercially mined from moons, Carnotite is valuable as it yields good quantities of Technetium, a key element of many advanced materials. Carnotite ores will also yield Cobalt and Atmospheric Gases.

When chunks of ore mined out of moons yield above-average densities of Cinnabar, the ore is called Replete Cinnabar and reprocessing returns approximately 15% higher quantities of useful material. A rare ore commercially mined from moons, Cinnabar is valuable as it yields good quantities of Mercury, a key element of many advanced materials. Cinnabar ores will also yield Tungsten and Evaporite Deposits.

When chunks of ore mined out of moons yield above-average densities of Pollucite, the ore is called Replete Pollucite and reprocessing returns approximately 15% higher quantities of useful material. A rare ore commercially mined from moons, Pollucite is valuable as it yields good quantities of Caesium, a key element of many advanced materials. Pollucite ores will also yield Scandium and Hydrocarbons.

When chunks of ore mined out of moons yield above-average densities of Zircon, the ore is called Replete Zircon and reprocessing returns approximately 15% higher quantities of useful material. A rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.

A common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.

Chromite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Chromite and reprocessing such ores will yield twice the normal volume of useful material. An uncommon ore commercially mined from moons, Chromite is quite valuable as it yields good quantities of Chromium, an important element of many advanced materials. Chromite ores will also yield Hydrocarbons.

Otavite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called shimmering otavite and reprocessing such ores will yield twice the normal volume of useful material. An uncommon ore commercially mined from moons, Otavite is quite valuable as it yields good quantities of Cadmium, an important element of many advanced materials. Otavite ores will also yield Atmospheric Gases.

Sperrylite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Sperrylite and reprocessing such ores will yield twice the normal volume of useful material. An uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.

Vanadinite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shimmering Vanadinite and reprocessing such ores will yield twice the normal volume of useful material. An uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.

Loparite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Loparite and reprocessing such ores will yield twice the normal volume of useful material. An exceptional ore commercially mined from moons, Loparite is highly valuable as it yields good quantities of Promethium, a vital element of many advanced materials. Loparite ores will also yield Platinum, Scandium and Hydrocarbons.

Monazite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Monazite and reprocessing such ores will yield twice the normal volume of useful material. An exceptional ore commercially mined from moons, Monazite is highly valuable as it yields good quantities of Neodymium, a vital element of many advanced materials. Monazite ores will also yield Chromium, Tungsten and Evaporite Deposits.

Xenotime ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Xenotime and reprocessing such ores will yield twice the normal volume of useful material. An exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.

Ytterbite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Shining Ytterbite and reprocessing such ores will yield twice the normal volume of useful material. An exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.

An uncommon ore commercially mined from moons, Sperrylite is quite valuable as it yields good quantities of Platinum, an important element of many advanced materials. Sperrylite ores will also yield Evaporite Deposits.

A ubiquitous ore commercially mined from moons, Sylvite is very useful as it yields good quantities of Evaporite Deposits used as basic elements of some advanced materials. Sylvite ores will also yield Pyerite and Mexallon .

A common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.

Cobaltite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Cobaltite and reprocessing such ores will yield twice the normal volume of useful material. A common ore commercially mined from moons, Cobaltite is very useful as it yields good quantities of Cobalt, a significant element of many advanced materials.

Euxenite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Euxenite and reprocessing such ores will yield twice the normal volume of useful material. A common ore commercially mined from moons, Euxenite is very useful as it yields good quantities of Scandium, a significant element of many advanced materials.

Scheelite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Scheelite and reprocessing such ores will yield twice the normal volume of useful material. A common ore commercially mined from moons, Scheelite is very useful as it yields good quantities of Tungsten, a significant element of many advanced materials.

Titanite ores carved out of moons can occasionally yield very high densities of the valuable minerals. When this happens the ore is called Twinkling Titanite and reprocessing such ores will yield twice the normal volume of useful material. This material was often used to manufacture high-status weapons in ancient times. A common ore commercially mined from moons, Titanite is very useful as it yields good quantities of Titanium, a significant element of many advanced materials.

An uncommon ore commercially mined from moons, Vanadinite is quite valuable as it yields good quantities of Vanadium, an important element of many advanced materials. Vanadinite ores will also yield Silicates.

An exceptional ore commercially mined from moons, Xenotime is highly valuable as it yields good quantities of Dysprosium, a vital element of many advanced materials. Xenotime ores will also yield Vanadium, Cobalt and Atmospheric Gases.

An exceptional ore commercially mined from moons, Ytterbite is highly valuable as it yields good quantities of Thulium, a vital element of many advanced materials. Ytterbite ores will also yield Cadmium, Titanium and Silicates.

A ubiquitous ore commercially mined from moons, Zeolites are useful as they yield good quantities of trapped Atmospheric Gases used as basic elements of some advanced materials. Zeolites ores will also yield Pyerite and Mexallon .

A rare ore commercially mined from moons, Zircon is valuable as it yields good quantities of Hafnium, a key element of many advanced materials. Zircon ores will also yield Titanium and Silicates.