ESCI 101: Lecture The Rock Cycle & Igneous Rocks February 23, 2007

Slides:

Advertisements

Similar presentations

Igneous Rock Formation

Advertisements

CH. 5 – Igneous Rocks   What are igneous rocks?   Formed by the hardening of magma.   “Ignis” means fire   What is the difference between magma.

GEOL- 103 Lab 2: Igneous/Metamorphic Rocks. Igneous Rocks Form as molten rock cools and solidifies General characteristics of magma Parent material.

Igneous Rocks. Summary 1. The Rock Cycle 2. Formation of Igneous Rocks 3. Classification of Igneous Rocks.

III. Igneous Rocks Minerals Crystallized from Melts 1. The Rock Cycle 2. Formation of Igneous Rocks 3. Classification of Igneous Rocks 4. Igneous Rocks.

Chapter 5-Igneous Rocks

Earth Science Standard 3c: Students know how to explain the properties of rocks based on the physical and chemical conditions in which they formed, including.

IGNEOUS ROCKS rock = mixture of minerals, mineraloids, glass, or organic matter bound together in some way 1. magma is parent material for all rocks 2.

Chapter 6 – IGNEOUS ROCKS. How, Why & Where Rocks Melt Begins as solid Molecules warm & begin vibrating = softening Molecules may vibrate violently enough.

The Rock Cycle A rock is a naturally formed, consolidated material usually composed of grains of one or more minerals The rock cycle shows how one.

The Rock Cycle: Igneous Rocks

Igneous Rocks. Rock Cycle Types of rocks Area of exposure on surface and volume fraction.

ESCI 101: Lecture The Rock Cycle & Igneous Rocks February 23, 2007 Copy of this lecture will be found at: With Some.

Chapter 4 Rocks & Igneous Rocks. Rock Definition A naturally occurring, solid Composed of one or more minerals.

Rocks Pieces of the Earth’s crust.. Types of Rocks Igneous- Rocks that formed from the fiery depths of the Earth. They form from magma and lava. –Extrusive.

Rocks Chapter 4-1 The Rock Cycle. Rock – mixture of minerals, glass or organic matter. Granite: igneous rock Mica Plagioclase Orthoclase Horneblend quartz.

ESCI 101: Lecture Rocks February 16, 2007 Copy of this lecture will be found at: With Some Graphics from Press et al.,

Chapter 5: Igneous rocks

Igneous Rocks Magma is the molten rock material below the surface. Lower density causes magma to rise toward the surface (compared to the surrounding.

Igneous Rocks and Their Origin Chapter 5. Igneous rocks - Formed from volcanic eruptions - either external or internal Sedimentary rocks - Formed from.

Petrology All about rocks!. Essential Questions  What is the rock cycle?  What are the three types of rocks?

Igneous Rocks Mr. Ahearn Earth Science What are Igneous Rocks? Rocks that cooled and crystallized directly from molten rock, either at the surface.

Igneous Rocks. The Rock Cycle The continuous and reversible processes that illustrates how one rock changes to another. “ One rock is the raw material.

Chapter 4 Rocks & Igneous Rocks. Rock Definition A naturally occurring consolidated mixture of one or more minerals e.g, marble, granite, sandstone, limestone.

Igneous Rocks 1 / 51. What are Igneous Rocks? from the Latin word for “fire” - ignis Thus, rocks that are “fire-formed” Molten rock (magma) cools to form.

Igneous Rocks and Their Origin Chapter 3. The Rock Cycle A rock is composed of grains of one or more minerals The rock cycle shows how one type of rocky.

Igneous Rocks Text ref. Ch5 (pg. 98).

Igneous rocks form as molten rock cools and solidifies General characteristics of magma Parent material of igneous rocks Forms from partial melting of.

Igneous Rocks (IR) a.k.a Volcanic Rocks

Igneous Rocks. * When magma or lava cools and freezes, it becomes a mineral. * A combination of minerals is a Rock. * Igneous rocks are formed from the.

Igneous Rocks (IR) a.k.a Volcanic Rocks Ms. Tasneem.

Earth Materials continued

Lecture Outlines Physical Geology, 12/e

Understanding Earth Chapter 4: IGNEOUS ROCKS Solids from Melts

GEOLOGY 101 Course Website: Today: Chapter 6

Chapter 4 Rocks & Igneous Rocks.

Chapter 5 Igneous Rocks Section 5.1.

What is another name for Intrusive? Plutonic

EARTH & SPACE SCIENCE Rocks Igneous Rock.

Rock Cycle & Igneous Rocks

What makes Igneous Rocks special?

Igneous Rocks Rocks that crystallized directly from a melt.

3.2 – Igneous Rocks.

Igneous Rocks Chapter 3.

Rocks: Mineral mixtures

Igneous Rocks Chapter 3 Essentials of Geology, 8e

Rocks and The Rock Cycle

CH. 5 – Igneous Rocks What are igneous rocks?

The Rock Cycle & Igneous Rocks November 11, 2008

Earth Science Chapter 3 Section 2

Aim: How Can We Classify Igneous Rocks?

ESCI 101: Lecture The Rock Cycle & Igneous Rocks February 23, 2007

Rocks (Igneous).

Earth Science Notes Igneous Rocks.

Presentation transcript:

ESCI 101: Lecture The Rock Cycle & Igneous Rocks February 23, 2007 Copy of this lecture will be found at: http://www.owlnet.rice.edu/~esci101 With Some Graphics from Press et al., Understanding Earth, 4th Ed. (Copyright © 2004 by W. H. Freeman & Company) Enchanted Rock

The Rock Cycle Melting & Intrusion Solidification of melt Mountain Building Uplift & Exposure Weathering Erosion & Transport Deposition & Burial Metamorphism Fig 4.9

ESCI 101 - “Pop” Homework #4 (Due Wednesday, 2/28/07, 5 PM) Assignment: For this exercise, trace the alternate pathway of the rock cycle: (1) igneous rocks are formed, (2) become metamorphosed, (3) exposed, and (4) evolve into sandstone. Describe the main processes and events that might take place at each step along the way, and the plate tectonic settings in which they are likely to occur. (Your answer should not exceed one page.) See the accompanying plot on the following page.

Pop-HW#4 An Alternate Rock Cycle Melting & Intrusion Solidification of melt ??? -> Sandstone X X X Fig 4.9

E.g., Convergent Plate Boundary (a) The Rock Cycle E.g., Convergent Plate Boundary Subducting slab Mantle melting Bouyant rise of melt Fig 4.9

E.g., Convergent Plate Boundary (b) The Rock Cycle E.g., Convergent Plate Boundary Solidification of melt Volcanic activity Extrusive rocks Intrusive rocks Fig 4.9

Genetic Classification of Igneous Rocks Intrusive: crystallized from slowly cooling magma intruded within the Earth’s crust; e.g. granite, gabbro. Granite Gabbro

Course-grained, interlocking Rock Texture Intrusive: Course-grained, interlocking Fig. 5.1

Genetic Classification of Igneous Rocks Extrusive: crystallized from rapidly cooling magma extruded on the surface of the Earth as lava, … Rhyolite Basalt

Rock Texture Intrusive: Course-grained, interlocking Extrusive: Fine-grained, discrete crystals, often glassy Fig. 5.1

Genetic Classification of Igneous Rocks Extrusive: … or erupted as pyroclastic material, i.e., fragmented pieces of magma ejected and cooled in the air. Ash Pumice Scoria

Formation of Igneous Rocks Pyroclasts Extrusive Intrusive Porphyry: partially crystalline Fig. 5.3

Process of Intrusion Intrusive rocks fracture and cross-cut the “country rock”. Igneous rocks cool quickly near the intrusive contacts, and cause contact metamorphism. Fig. 5.2

Composition and Classification of Igneous Rocks Chemistry: e.g. % SiO2 Mineralogy: e.g. Felsic - high silica Intermediate - intermediate silica Mafic - low silica Ultramafic - very low silica (continental crust) (oceanic crust) (mantle)

Felsic Igneous Rocks: Igneous rocks rich in minerals high in silica and low in iron and magnesium. They include: Granite Rhyolite

Mafic Igneous Rocks: Igneous rocks rich in minerals low in silica and high in iron and magnesium. They include: Gabbro Basalt

Common Minerals

Intermediate Igneous Rocks: Igneous rocks intermediate in composition between felsic and mafic igneous rocks. They include: Granodiorite (Dacite) Diorite (Andesite)

Ultramafic Igneous Rocks: Igneous rocks with very low silica content, consisting dominantly of mafic minerals. The most common ultramafic rock is: Peridotite (no extrusive equivalent)

Fig. 5.4

Compositional Classification Granite Compositional Classification Quartz Orthoclase Biotite Granite Plagioclase

Compositional Classification Granite Compositional Classification Granodiorite Quartz Granite Amphibole Plagioclase

Compositional Classification Granite Compositional Classification Granodiorite Diorite Granite Plagioclase Amphibole

Compositional Classification Granite Compositional Classification Granodiorite Diorite Granite Gabbro Plagioclase Pyroxene

Compositional Classification Granite Compositional Classification Granodiorite Diorite Granite Gabbro Pyroxene Olivine Peridotite

Felsic Intermediate Mafic Table. 5.2 Granite Granodiorite Diorite Gabbro Rhyolite Dacite Andesite Basalt Viscosity Melting Temperature

When rocks melt (or partially melt). How do magmas form? When rocks melt (or partially melt). When do rocks melt? When the temperature exceeds the melting point of the rock or some minerals within the rock.

Factors that Affect Melting of Minerals (and Rocks) Composition: Felsic minerals melt at lower temperatures than mafic minerals Pressure: Increased pressures raises melting points Water Content: Increased water content lowers melting points

The Formation of Magma Chambers Magma pools in magma chamber Magma rises Buoyant melt migrates through rock pores and fractures. Less dense magma Melt is less dense than solid. Low density minerals tend to melt first. Partial melting Some minerals melt before others. Results in mixture of melt and solid.

Covers 15,400 mi2 !! Composition Granite Monzonite Granodiorite Diorite Even Gneiss All in one “magma chamber”

e.g., granite, granodiorite, diorite Why do magmas have such different compositions - even when derived from a single “parent magma” e.g., granite, granodiorite, diorite

Magma Differentiation The process by which rocks of various compositions can arise from a uniform parent magma Occurs because different minerals crystallize at different temperatures (i.e., the opposite of partial melting) Tune in Wednesday for the exciting conclusion!