VOLCANOES Please click to start.

Slides:

Advertisements

Similar presentations

The Parts of a Volcano.

Advertisements

Introduction Volcano, mountain or hill formed by the accumulation of materials erupted through one or more openings (called volcanic vents) in the earth's.

Volcano Stations REVIEW. QUESTION #1 1.How are volcanoes considered both constructive and destructive forces in geology?

Place these notes in your Notebook.

Volcanic Landforms. Types of Volcanoes Cinder Cone Shield Composite.

10.1 The nature of volcanic eruptions

Different Types of Volcanoes

Two factors determine the type of eruption :  Amount of water vapor & other gases in the magma  The chemical composition of the magma Types of Volcanic.

Three different types of volcanoes exist; Volcano An opening in Earth’s crust through which igneous matter (lava, ash, cinder, and gases) are erupted.

Volcanoes. Formed at Plate Boundaries Ring of Fire!

Volcanic Landforms 6 th Grade. 2 Kinds of Volcanic Eruptions Quiet Eruptions: – If magma is low in silica – Lava is low in viscosity and flows easily.

The Parts of a Volcano. What is a Volcano?  A mountain that forms when magma reaches the surface of the Earth.  Magma rises because it is less dense.

The Parts of a Volcano. What is a Volcano?  A volcano is a mountain that forms when magma reaches the surface of the Earth.  Magma rises because it.

3 TYPES OF VOLCANOES. SHEILD HOW DO THEY FORM? Thin layers of lava pour out a vent and harden on top of previous layers.

They are the most common type of volcanoes. Many cinder cones have a bowl-shaped crater at the summit. They are commonly found on the flanks of shield.

Kyle George – EDU-384 July 2 nd  A volcano is a mountain that forms when magma reaches the surface of the Earth.  Magma rises because it is less.

Volcanoes : Volcanic Landforms.

I.What is a Volcano?  A volcano is any opening in the Earth’s crust where magma, ash and gas are able to reach the surface  Volcanoes may have more.

8th grade Physical Science

Volcanoes Review Is a volcano always a mountain? -- fissure eruption.

Volcanoes. Do Now 11/12/13 1.What is magma? 2.At which type of plate boundary are volcanoes most common? 3.Which mineral is the hardest? The softest?

Volcanic Landforms & Eruptions

Volcanoes * There are 2 (main) kinds of Volcanoes 1.Steep sloped with violent (explosive) eruptions 2.Gentle sloped with voluminous lava flows Mount Fuji,

VOLCANOES. Pompeii, Italy Bodies… Terms to know… ► Magma- liquid rock ► Lava- magma that breaks through to the surface of the earth ► Vent- opening.

Topic: volcanoes and Volcanoes Locations Objectives: –I will understand what a volcano is and how it is formed –I will understand the 3 locations where.

How do volcanoes form and what affect do they have on the Earth?

Volcanic Landforms 6 th Grade. 2 Kinds of Volcanic Eruptions Quiet Eruptions: – If magma is low in silica – Lava is low in viscosity and flows easily.

VOLCANOES. What is a volcano? Areas of earth’s surface through which magma and volcanic gases pass Magma flows from volcanoes transfer heat and thermal.

Types of Volcanoes.

Volcanoes. The cause of it all… What causes volcanoes to erupt??? The shift in the Earth’s plates are what causes volcanoes to form.Earth’s plates As.

Volcanic Eruptions. Mafic Lava  Dark colored  Rich in magnesium and iron  Formed from oceanic crust  Cools rapidly.

Shield Volcanoes The magma inside a shield volcano is rich in iron and magnesium (Fe and Mg) and is very fluid. (low viscosity = thin) Since the magma.

Important Facts on Volcanoes

Volcano Stations REVIEW ANSWERS. ANSWER 1.Why are volcanoes considered a “window” into the Earth’s interior? They allow us to study material that comes.

Lets Review……. Magma Chamber Lies inside the earth. Stores hot, melted rock called magma.

Volcanoes 2. Shield Volcanoes: broad at the base with gently sloping sides Form from: quiet eruptions Example: Hawaiian Islands Types of Volcanoes.

Volcanic Eruptions 11/4/15 9-1/9-2 pgs  IN: What is a volcano? Put your Vocab Sheet on the books.

Volcano A volcano is a land form, which is essentially a vent that emits magma (molten rock), volcanic ash, gases, and pyroclastic debris through the.

Volcanoes and You. 1. What is a volcano? A volcano is a mountain that forms when layers of lava and volcanic ash erupt and build up around a vent.

Volcanoes by Marida Torosyan and Ani Tashyan. Volcanoes and Plate Boundaries  There are 600 active volcanoes on land.  One important volcanic belt is.

Copyright © by Holt, Rinehart and Winston. All rights reserved. ResourcesChapter menu Students know: two kinds of volcanoes, one with violent eruptions.

Volcano Stations REVIEW. QUESTION #1 1.How are volcanoes considered both constructive and destructive forces in geology?

Three Types of Volcanoes VOLCANOES EQ: What are the types of volcanoes and how are they volcanoes and how are they formed? formed?

Three Types of Volcanoes

The cause of it all… What causes volcanoes to erupt???

Volcanoes START.

Monday October 31, 2016 Please take out: Vocab chart (homework)

VOLCANOES-CH. 13.

Three Types of Volcanoes

Volcanic Eruptions.

Place these notes in your Notebook.

The Parts of a Volcano.

Anatomy of a Volcano.

10.2 The Nature of Volcanic Eruptions

An opening in the earth’s crust through which magma erupts.

Volcanoes What are the three types of volcanoes?

Volcanic Eruptions.

Volcanoes and You.

Continuation of earth’s process part 2

An opening in the earth’s crust through which magma erupts.

Cornell Notes: Types of Volcanoes & Hot Spots

Volcanoes Chapter 10 - mountains created by rising magma Types

Presentation transcript:

VOLCANOES Please click to start

Types of volcanoes Cylinder Strato Shield Click here to learn more… Previous

Cinder Cone Cinder Cone Volcanic cones or cinder cones result from eruptions that erupt mostly small pieces of scoria and pyroclastics (both resemble cinders, hence the name of this volcano type) that build up around the vent. These can be relatively short-lived eruptions that produce a cone-shaped hill perhaps 30 to 400 meters high. Most cinder cones erupt only once. Cinder cones may form as flank vents on larger volcanoes, or occur on their own. Parícutin in Mexico and Sunset Crater in Arizona are examples of cinder cones. In New Mexico, Caja del Rio is a volcanic field of over 60 cinder cones. Previous

Strato Strato Stratovolcanoes are tall conical mountains composed of lava flows and other ejecta in alternate layers, the strata that give rise to the name. Stratovolcanoes are also known as composite volcanoes, created from several structures during different kinds of eruptions. Strato/composite volcanoes are made of cinders, ash and lava. Cinders and ash pile on top of each other, then lava flows on top and dries and then the process begins again. Classic examples include Mt. Fuji in Japan, Mount Mayon in the Philippines, and Mount Vesuvius and Stromboli in Italy. In recorded history, explosive eruptions by stratovolcanoes have posed the greatest hazard to civilizations Previous

Shield Shield Shield volcanoes, so named for their broad, shield-like profiles, are formed by the eruption of low-viscosity lavas that can flow a great distance from a vent, but not generally explode catastrophically. The Hawaiian volcanic chain is a series of shield cones, and they are common in Iceland, as well. Previous

Eruptions Eruptions Another way of classifying volcanoes is by the composition of material erupted (lava), since this affects the shape of the volcano. Lava can be broadly classified into 4 different compositions (Cas & Wright, 1987): If the erupted magma contains a high percentage (>63%) of silica, the lava is called felsic. If the erupted magma contains 52–63% silica, the lava is of intermediate composition. If the erupted magma contains <52% and >45% silica, the lava is called mafic (because it contains higher percentages of magnesium (Mg) and iron (Fe)) or basaltic. Some erupted magmas contain <=45% silica and produce ultramafic lava. Ultramafic flows, also known as komatiites, are very rare; indeed, very few have been erupted at the Earth's surface since the Proterozoic, when the planet's heat flow was higher. They are (or were) the hottest lavas, and probably more fluid than common mafic lavas. Previous