Mineral Stocks List

Related ETFs - A few ETFs which own one or more of the above listed Mineral stocks.

Mineral Stocks Recent News

Date Stock Title
Jan 14 TXG Torex Gold Provides 2025 Operational Guidance and Updated Five-Year Production Outlook
Jan 14 MAI Sabre Gold Shareholders Approve Acquisition by Minera Alamos
Jan 14 ORA Aura Minerals Acquires Shares of Bluestone
Jan 14 BTO B2Gold Maintained at Outperform at BMO Following Q4 Production Cuts; Price Target Cut to C$7.00
Jan 14 BTO B2Gold Reports Y/Y Decrease in Q4 Gold Production & Revenues
Jan 14 AGI Alamos Gold Reports 8.3% Y/Y Increase in 2024 Gold Production
Jan 14 AGI Alamos Gold Maintains Stock Ratinga, Price Targeta at Both RBC Capital Markets, National Bank
Jan 14 POW Power Sustainable Closes $85 Million Financing In Canadian Fiber Optics Corp
Jan 14 BTO B2Gold Keeps Stock Rating, Price Target at Both RBC Capital Markets, National Bank
Jan 14 POW POWER SUSTAINABLE CLOSES CAD $85M TERM LOAN INVESTMENT IN CANADIAN FIBER OPTICS CORPORATION ("CFOC")
Jan 14 AEM Here's Why Agnico Eagle Mines (AEM) is a Strong Value Stock
Jan 14 ZNX 3 TSX Penny Stocks With Market Caps Below CA$20M
Jan 14 SLVR Silver Tiger Metals Inc. Invites You to Join Us at the Vancouver Resource Investment Conference
Jan 14 POW 3 Canadian Dividend Stocks On TSX Yielding Up To 5.3%
Jan 14 WDO Wesdome Gold Mines Hits Record 2024 Gold Production
Jan 14 DEFN Important Improvement To Defense Metals Process Flowsheet
Jan 14 WDO Wesdome Delivers on Full Year 2024 Consolidated Production Guidance; Provides Multi-Year Operational Outlook
Jan 14 AGI Alamos Gold Achieves Record Production, Sets Stage For Low-Cost Growth
Jan 14 BTO B2Gold Cuts Dividend, Plans Normal Course Issuer Bid as Part of Amended Shareholder Returns Strategy
Jan 14 FVL Freegold Extends Mineralization to the West and SouthWest Intersecting 1.88 g/t Au over 54.2 metres and 1.58 g/t Au over 60 metres at Golden Summit
Mineral

A mineral is a naturally occurring chemical compound, usually of crystalline form and not produced by life processes. A mineral has one specific chemical composition, whereas a rock can be an aggregate of different minerals or mineraloids. The study of minerals is called mineralogy.
Minerals are classified by variety, species, series and group, in order of increasing generality. As of November 2018, there are more than 5,500 known mineral species; 5,389 of these have been approved by the International Mineralogical Association (IMA).Minerals are distinguished by various chemical and physical properties. Differences in chemical composition and crystal structure distinguish the various species, which were determined by the mineral's geological environment when formed. Changes in the temperature, pressure, or bulk composition of a rock mass cause changes in its minerals. Within a mineral species there may be variation in physical properties or minor amounts of impurities that are recognized by mineralogists or wider society as a mineral variety, for example amethyst, a purple variety of the mineral species quartz.
Minerals can be described by their various physical properties, which are related to their chemical structure and composition. Common distinguishing characteristics include crystal structure and habit, hardness, lustre, diaphaneity, colour, streak, tenacity, cleavage, fracture, parting, specific gravity, magnetism, taste or smell, radioactivity, and reaction to acid.
Minerals are classified by key chemical constituents; the two dominant systems are the Dana classification and the Strunz classification. Silicon and oxygen constitute approximately 75% of the Earth's crust, which translates directly into the predominance of silicate minerals. The silicate minerals compose over 90% of the Earth's crust. The silicate class of minerals is subdivided into six subclasses by the degree of polymerization in the chemical structure. All silicate minerals have a base unit of a [SiO4]4− silica tetrahedron – that is, a silicon cation coordinated by four oxygen anions, which gives the shape of a tetrahedron. These tetrahedra can be polymerized to give the subclasses: orthosilicates (no polymerization, thus single tetrahedra), disilicates (two tetrahedra bonded together), cyclosilicates (rings of tetrahedra), inosilicates (chains of tetrahedra), phyllosilicates (sheets of tetrahedra), and tectosilicates (three-dimensional network of tetrahedra). Other important mineral groups include the native elements, sulfides, oxides, halides, carbonates, sulfates, and phosphates.

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