2. Igneous Rock Notes

3. I. Composition of the Earth’s Crust A. The earth’s crust is composed of rocks. A rock is defined as two or more minerals, found in the earth’s crust bonded together in a solid form B. 98% of the earth’s crust is composed of the following 8 elements: Silicon (Si), Oxygen (O 2 ), Aluminum (Al), Magnesium (Mg), Calcium (Ca), Sodium (Na), Potassium (K) and Iron (Fe)

4. A. Sedimentary rocks - formed by the hardening and cementing of layers of sediment. II. Rock Types B. Metamorphic rocks - formed when rocks that already exist are changed by heat and pressure into new kinds of rocks. C. Igneous rocks - formed by cooling and hardening of hot molten rock from inside the Earth.

5. III. The Rock Cycle

8. A. Color: Indicates differences in chemical composition. B. Crystal size: (mm) Indicates the rate of cooling of a rock. Rocks with larger crystals cooled more slowly than rocks with smaller crystals. IV. Studying Igneous Rocks C.Density: mass (g) ÷ volume (ml or cm 3 ) Indicates differences in depth of formation and chemical composition. More dense rocks form from magma that originates deeper in the mantle.

9. A. Three major factors affect the chemical composition, crystal size and density of Igneous Rock: 1. Source of parent magma. 2. Interaction between the parent magma and the rocks of the crust. 3. Rate of cooling. V. Igneous Rock Formation

10. A. Intrusive Igneous Rock Definition: rock formed underground when magma cools. Magma: molten (liquid) rock found beneath the earth’s surface. 1.From Magma (Intrusive ) Cooled slowly Deep Shallow Large/Coarse Small Crystals Crystals VI. Types of Igneous Rocks

11. B. Extrusive Igneous Rock Definition: rock formed on the surface when lava cools. Lava: molten (liquid) rock that emerges from the crust through cracks or fissures. 1. From Lava (Extrusive) Cooled quickly Surface Fine Crystals Glassy Rocks

12. A. Felsic Rocks Chemical Composition: High percent of silicates (Si) and water. Low percent of iron (Fe), calcium (Ca), & magnesium (Mg) Color: Light colored minerals Viscosity: The degree to which a substance resists flow. Relative Level: High (Low temperatures and slow flowing) Trapped gases: High level: H 2 O, O 2, CO 2, H 2, CO, H 2 S, SO 2 Relative Density Level: Low (high gas content) Volcanic source: Explosive volcanoes and cinder cones (ex. Mt. Pinatubo) Location: Continental Crust VII. Igneous Rock Characteristics

13. B. Mafic Rocks Chemical Compostion: Low percent of silicates (Si). High in Calcium (Ca), Iron (Fe) and Magnesium (Mg). Color: Dark colored minerals Relative Viscosity Level: Low (high temperature and more fluid) Trapped gases: Low level Relative Density Level: High (low gas content) Volcanic source: “Gentle” eruptions from broad shield volcanoes (ex. Hawaii) Location: Oceanic Crust and Hot Spots

14. C. Andesitic (Intermediate) Rocks Chemical Composition: Intermediate percent of silicates (Si). Intermediate in Ca, Fe, Mg. Color: Intermediate colored minerals Relative Viscosity Level: Intermediate Trapped gases: Intermediate amounts present Relative Density Level: Intermediate Volcanic source: Intermediate eruption volcanoes Location: Continental Crust

15. A.FelsicB.Mafic Mostly lightMostly dark colored minerals colored minerals [ Si] [Ca, Fe, Mg] C. Andesitic Contain light and dark minerals Intermediate levels of [Si, Ca, Fe, Mg] VIII. Review

16. A. Felsic Dissolved B. Mafic Dissolved Gases Gases Thick & SlowThin & Fast Hard For GasesGases Escape To Escape Easily Explosive Eruptions “Gentle” Eruptions Note: Dissolved Gases Include H 2 O, S, CO 2, H 2, CO, H 2 S, SO 2

17. Extrusive Intrusive Small crystals Large crystals No crystals Darker colored rocks Lighter colored rocks IX. Summary

18. Small crystals Large crystals Fine crystals Felsic Andesitic Mafic

19. X. Plate Tectonics and Igneous Rocks