Introduction to igneous rocks + kegiatan gunung berapi (volcanism)

Introduction to igneous rocks

+ kegiatan gunung berapi (volcanism)

LEARNING OBJECTIVES: 3 teras idea

1 Pembentukan, pengelasan dan pengecaman batuan igneus (Formation, classification and Identification of igneous rocks)

2 Evolusi batuan igneus (Igneous rock evolution)

3 Tektonik Keping dan taburan batuan igneus (Plate Tectonics and igneous rock distribution)

Kejadian-hasil

• Batuan igneus terjadi hasil drpd pemejalan (solidification) magma

Apa itu magma?

• Magma ialah satu leburan (melt) yang sangat panas (> 600 C) yg mengandungi hampir semua unsur (terdapat 105 unsur yg diketahui setakat ini) yg bercampur secara kimia dan menghablur (crystallize) dalam pelbagai pola geometri (geometric patterns) untuk membentuk 8 jenis mineral pembentuk batuan (rock forming minerals)

Bagimana magma terjadi?

• Terhasil drpd peleburan separa dan penghabluran berperingkat kerak bumi benua ataupun lautan (partial melting of continental and oceanic crust and fractional crytsallization)

• Kedalaman 600 km

Di mana terjadi?

• Convergent plate boundaries

• Divergent plate boundaries

• Strike-slip boundaries

Kejadian-hasil

• Batuan igneus terjadi hasil drpd pemejalan (solidification) magma sama ada di dalam perut bumi, di dalam air lautan atau di permukaan bumi

1 Kegiatan gunung berapi di luar permukaan bumi atau di dasar laut=>batuan ekxtrusif/gunung berapi (extrusive/volcanic rocks)

2 Pejal di dalam => batuan intrusif (intrusive)

Mt Etna, Sicily 2002-03

Batuan lava

Mt Nyirangongo, Central Africa

Eruption products

Classification of igneous rocks

SIRI TINDAK BALAS BOWEN(Bowen Reaction Series)

olivin

Piroksen (Pyroxene)

amphibole

Mika (mica)

Potassium feldspar

Mika muskovit

Kuarza (Quartz)

Calcium feldspar

Na feldspar

Original minerals (Chemical formula)

• Quartz SiO2

• Microcline KAlSi3O8

• Orthoclase KAlSi3O8

• Na-Plagioclase NaAlSi3O8

• Ca-Plagioclase CaAlSi3O8

• Muscovite KAlSi3O10

• Biotite KAl(Mg-Fe)3Si3O10 (OH)2

• Horneblende Ca2Al2Mg2Fe3, Si6O (OH)2

• Augite Ca2(Al-Fe)4(Mg-Fe)4Si6O 24

Siri Tindak Balas Bowen

• Memperihalkan tertib mineral menghablur drpd magma yg menyejuk, berdasarkan kpd prinsip bahawa setiap bahan mempunyai takat lebur yang unik.

• Ada kaitan dengan gambarajah fasa (phase diagram) eg. Eutektik diagram, ternary diagram

Tindak balas

• Continous series (selanjar)

Tindak balas tak selanjar

• Discontinous series -

soalan

• Mineral dan batuan manakah yang paling banyak ditemui di dalam kerak bumi?

• Mineral dan batuan manakah yang lazim ditemui di permukaan? Di dalam perut bumi?

• Mineral dan batuan manakah yang mudah terurai? Yg payah terurai? Kenapa?

• Apakah mineral dan batuan kekal dalam keadaan asal ia terjadi? Tidak berubah? Kalau berubah, bentuk baru apakah yang terjadi?

andesite

basalt

diorite

gabbro

granite

obsidian

olivine

Olivine basalt

Pink granite

Porphyritic granite

Pumice granite

pumice

rhyolite

scoria

vesicles

Next lecture

Introduction to igneous rocks + kegiatan gunung berapi (volcanism)

Documents

VOLCANISM & Igneous Activity. VOLCANISM Lava = Magma at earth surface –Silica content controls “explosiveness” Pyroclasts = Fragments of rock due

6 BAB II TINJAUAN PUSTAKA 2.1 Gunung Berapi Gunung berapi

Teori Pembentukan Gunung Berapi

Lecs 6 & 7 Rocks & Igneous Rocks for notesgeoscience.wisc.edu/~chuck/Classes/Geo100/Lectures/l6_and_7.pdf · intrusives (plutonism) Mafic to intermediate Island arc extrusives (volcanism)

There are 2 types of volcanismThere are 2 types of volcanism Intrusive----magma cools below the surface and makes plutons (igneous intrusions) Extrusive---liquid

Igneous Rocks: Igneous Rock

1.Intro to geology 2.Plate tectonics 3.Minerals 4.Rocks 5.Igneous rocks 6.Volcanism 7.Weathering & erosion 8.Sediments and Sedimentary rocks 9.Metamorphic

Silicic volcanism: An undervalued component of large igneous

Materi Gunung Berapi

Volcanism. Plate tectonics and igneous activity Global distribution of magmatism is not random Most volcanoes are located within or near ocean basins

Ocean Floor Basalts (MORB) Igneous Petrology 423, Francis 2013 The eruption of MORB basalts is the dominant form of active volcanism on the Earth today:

gunung berapi

Media Pembelajaran Gunung Berapi

Kejadian gunung berapi

Geodynamics - MIT OpenCourseWare · Geodynamics 5.1 Heat ﬂow Thermally controlled processes within Earth include volcanism, intrusion of igneous rocks, metamorphism, convection

Mt. Fujiyama, Japan Volcanism & Extrusive Igneous Activity expulsion of molten rock (LAVA), gases and water onto the surface of the Earth. expulsion of

IGNEOUS ROCKS & VOLCANISM

Aktiviti Igneus & Gunung Berapi

1 gunung berapi

Jenis Gunung Berapi