1 / 31

Chapter 5 - Igneous Environments

Chapter 5 - Igneous Environments. Rocks are composed of an aggregate of one or more minerals. One exception: obsidian (rock) is composed of volcanic glass with no orderly internal arrangement of atoms. Three rock types. Igneous Rocks.

terentia-avis
Télécharger la présentation

Chapter 5 - Igneous Environments

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Chapter 5 - Igneous Environments Rocks are composed of an aggregate of one or more minerals. One exception: obsidian (rock) is composed of volcanic glass with no orderly internal arrangement of atoms. Three rock types.

  2. Igneous Rocks • Igneous rocks: rocks “born of fire”; all igneous rocks were once molten. • Intrusive igneous rocks cool and solidify deep inside earth. • Form from solidified magma. • Extrusive igneous rocks cool and solidify on earth’s surface. • Form from solidified lava.

  3. Igneous Rock Pictures Intrusive (Plutonic) Igneous Rock Extrusive (Volcanic) Igneous Rock

  4. Sedimentary Rocks • Sedimentary rocks are composed of sediment. • Sediment can be either clastic (pieces) or chemical. • Clastic sediment is pieces of pre- existing rock like gravel, sand, silt and clay. • Chemical sediment is chemicals dissolved in water.

  5. Sedimentary Rock Pictures • Chemical sedimentary rock. • Gravel clasts.

  6. Metamorphic Rocks • Metamorphic rocks: Changed by heat and pressure. Change is accomplished without melting.

  7. Rock Cycle • One of the three rock types can become any other rock type through various geologic processes. This is known as the rock cycle.

  8. Rock Cycle Diagram • One of the three rock types can become any other rock type through various geologic processes. This is known as the rock cycle.

  9. Rock Cycle Diagram

  10. Igneous Rocks 90% of all crustal rocks. Most covered by sedimentary rocks. Hard to see. Magma: molten rock underground. Cools slowly. Large crystals. 1 MY cooling history Plutonic: Pluto-god of underworld. Lava: molten rock on earth’s surface. Cools quickly. Small or no crystals. Hours-weeks cooling. Volcanic: Vulcan-god of fire

  11. Eight Major Igneous Rocks

  12. Start Chemistry of Igneous Rock felsic - high in silica - ≈70%+ granite/rhyolite intermediate - in-between felsic and mafic - ≈60% diorite/andesite mafic - low in silica - ≈ 50% gabbro/basalt ultramafic - really low in silica - below 44% peridotite/xxx

  13. Granite Picture

  14. Rhyolite Picture

  15. Diorite Picture

  16. Andesite Picture

  17. Gabbro Picture

  18. Basalt Picture

  19. Bowen’s Reaction Series Could you create every igneous rock by melting the upper mantle? assumption - chemistry of the magma is the same as the upper mantle BRS - yes, order in which minerals crystallize fractional crystallization crystal separation filter pressing crystal settling crystal flotation

  20. Bowen’s Reaction

  21. Page 199 Figure 1

  22. Fig. 7.21.a

  23. What if the Magma Stays Underground? magmatic stoping - moving through the solid rock (country rock) wedging breaking (xenolith) melting plutons batholith - larger than 100 km2 most batholiths contain multiple intrusions stock - smaller 10km2 or less dike – discordant intrusion sill – concordant intrusion

  24. Fig. 7.18

More Related