Glaciers Chapter 15.1.

Slides:

Advertisements

Similar presentations

Glaciers Chapter 8, Section 2.

Advertisements

Glaciers By Dylan & Tony.

Jeopardy GlaciersLandforms More Landforms RANDOM Q $100 Q $200 Q $300 Q $400 Q $500 Q $100 Q $200 Q $300 Q $400 Q $500 Final Jeopardy.

In the Beginning… Ice Age: period of time when freezing temperatures created ice sheets across continents. Glaciers covered most of.

1 2 pt 3 pt 4 pt 5pt 1 pt 2 pt 3 pt 4 pt 5 pt 1 pt 2pt 3 pt 4pt 5 pt 1pt 2pt 3 pt 4 pt 5 pt 1 pt 2 pt 3 pt 4pt 5 pt 1pt Chipping Away Water, Water EverywhereUnder.

Chapter 17 Review.

Glaciers. Groundwater Question of the week What is confined aquifer?

Erosion and Deposition by Glaciers Created By: Belinda Schmahl.

Topic 2 – Earth’s Frozen Water What is a Glacier? Large bodies of moving mass of ice and snow are called glaciers. An ‘ Ice Cap ’ is a glacier that forms.

Chapter 7: Erosion and Deposition

Unit 1: Water Systems on Earth

Glaciers Topics: Types of Glaciers Glacier Movement Deposits by Glaciers The Ice Age Glaciers and Global Warming Glacial Rebound.

Ch. 15 Glaciers.

Chapter 15-1 Glaciers Pages

Geology of Great Lakes How the lakes formed.

Earth is the only planet with liquid water at its surface.

Section 15.2 Glacial Movements and Erosion

Section 1: How Rock Deforms

Erosion by Glaciers. A glacier is Any large mass of ice that moves slowly over land Think of it as a moving river of ice and snow.

Chapter 7.1 Glaciers.

Earth Science: 7.1A Glaciers. Glaciers  As recently as 15,000 years ago, up to 30 percent of earth’s land was covered by an glacial ice.  Earth was.

 A glacier is a thick mass of ice, composed of compacted and recrystallized snow that forms over thousands of years.  Glacier only flow or move over.

Chapter 3 Section 4 Glaciers. Moving mass of ice and snow Form when more snow falls than melts Agent of erosion.

Lithosphere: Glaciated Uplands

GLACIERS By: Danny O’Keefe. QUICK FACTS ON GLACIERS Presently, 10% of land area is covered with glaciers. Glaciers store about 75% of the world's freshwater.

Section 15.1 What is a glacier?. Compare a River to a Glacier Fast flow Liquid: rain or snow

Glaciers Erosive forces Glacier persistent body of dense ice that is constantly moving under its own weight. It forms where the accumulation of snow.

Glaciers Moving Ice Formation of Glaciers A glacier is defined as a mass of moving ice. A glacier is defined as a mass of moving ice. There are several.

Ch 15: p  Enormous masses of moving ice created by the accumulation and compaction of snow.  Powerful agents of erosion ~ have carved some.

Glaciers October 21st, Pre - Activity Knowledge Check on the note sheet provided, answer the true or false questions.

Glacial Erosion and Deposition. Objectives Introduce glaciers as important agents of landscape formation, and discuss the different categories of glaciers.

Glaciers UNIT 5 STANDARDS: STATE OBJECTIVES: NCES 2.1.1, 2.1.3, LESSON 6.

Table of Contents Title: 8.3 Glaciers Page: 80 Date: 3/4/2013.

An introduction to where, how, and why glaciers form

Chapter 18: Glaciers. Introduction Glacier: thick mass of ice that originates on land from the accumulations, compaction and recrystallization of snow.

Moving At A Glacial Pace How Glaciers Have Shaped Our World.

A glacier forms when winter snowfall in an area exceeds summer melt and therefore accumulates year after year. Snow is compacted and converted to glacial.

Glaciers and Erosion Chapter 7 Section 1.

GLACIERS A glacier is: Any large mass of ice that moves slowly over land Any large mass of ice that moves slowly over land.

“Fast Times at Glacial High” ERIC MARCH

Glaciers & Erosion. Glaciers: What are they? very powerful agent of erosion mass of moving ice How are glaciers formed? when snow and ice accumulate to.

Mass Movements, Wind, and Glaciers Earth Science Chapter 8.

Chapter 8 Erosional Forces Section 8-2 Glaciers Note Guide.

Chapter 3 Erosion and Deposition Section 4 Glaciers

Unit 1: Water Systems on Earth

Chapter 7.3 Glaciers. Glacier Any large mass of ice that moves slowly over land. Two kinds: – Continental Glaciers – Valley Glaciers.

CH15 Glaciers and Erosion Mrs. Kummer Fall, 2014.

Glaciers. Formation of glaciers Glaciers – a large mass of moving ice. At high elevations and in polar regions, snow can remain on the ground year-round.

Aim: How do glaciers move? Topic: Glaciers DN: 1.How does wind move sand? 2.Why are rocks eroded by wind more eroded at the base of the rock than.

D. Evan Stribling  a larger mass of compacted snow and ice that moves under the force of its own gravity (weight)  They erode in some places deposit.

- In some places it is too cold for all the snow to melt - This snow begins to pile up - The weight of all the snow piling up causes the crystals to reform.

Glaciers Erosive forces.

CH 7 Glaciers, Deserts, & Wind

Chapter 17-Glaciers Section 1: Glaciers – Moving Ice

Glaciers Jus’ chillin’.

GLACIERS CGF3M Nov. 5, 2013.

An agent of erosion, weathering, and deposition

Prairie School Earth Science

Glacier Formation Glaciers are formed from layer after layer of compacted snow. As the snow compacts, it loses trapped air, becoming harder and more dense.

Earthquakes & Glaciers By: Marvette Lacy

Chapter 19 Glaciation.

Presentation transcript:

Glaciers Chapter 15.1

Glaciers Glaciers A huge mass of ice slowly flowing over a land mass, formed from compacted snow in an area where snow accumulation exceeds melting and sublimation. Sublimation is the process in which a solid changes directly into a gas, or a gas changes directly into a solid.

Sublimation

Formation Formation of Glaciers Generally, rain water quickly runs of and flows to rivers and oceans or seeps into the earth as ground water. However, at higher elevations, and in polar regions, water reaches the earth as snow and will remain as snow all year long.

Snow Line These elevations are above the “snow line”. The snow line is defined as the elevation above which ice and snow remain throughout the year. The snow line varies around the earth. At the equator the snow line is about 5,500ft above sea level and at the poles the snow line is at sea level.

Snow Line

Snowfield A snowfield is an almost a motionless mass of permanent snow and ice. Snowfields are formed by an accumulation of ice and snow above the snowline. They cover most of the land near the poles and the tops of some mountains at lower latitudes.

Snowfield

Firn Due to slight fluctuations in temperature, ice partially melts and re-freezes which changes the snow crystals into small grains of ice. This grainy ice is called snow firn.

Firn

Glacial Formation Due to layers of accumulated snow, the pressure on the lower layers of the firn is great enough to flatten and squeeze out the air between the molecules. This forms glacial ice, which is a bright blue color that is a common characteristic of glaciers. When the snow and ice accumulate to a great enough thickness, that the ice starts to move downslope due to gravity, a glacier is formed.

Glacier

Types of Glaciers Types of Glaciers There are two main types of glaciers: Valley Glaciers and Continental Ice Sheets.

Valley Glaciers A valley glacier is formed in mountainous areas, but is named after the ice has moved down into the valley. Valley glaciers are defined as long, narrow, wedge-shaped masses of ice, and are common in high mountain regions such as Alaska, the Himalayas, the Andes, the Alps, and New Zealand.

Continental Ice Sheets Continental ice sheets cover millions of square kilometers and are found only in Greenland and Antarctica. The Antarctica continental ice sheet is one and a half times as large as the mainland US, and is as thick as 4,000m.

Antarctica

Continental Ice Sheets The Greenland continental ice sheet covers 90% of Greenland and is over 3,000 m at its maximum thickness. If these two ice sheets were to melt, the water would raise worldwide sea levels by more than 60 meters.

Greenland Ice Sheet

Glacial Movement Movement of Glaciers On average, a glacier moves about 100m per year. However, some only travel a few centimeter and some a kilometer or more. Glacier movement is categorized into two different processes: Basal Slip and Internal Plastic Flow.

Basal Slip Basal Slip occurs when the pressure of the ice is great enough to melt the ice at the bottom of the glacier that is in contact with the land. This, now water, acts as a lubricant and allows the glacier to “slip” forward. Basal slipping also allows water to melt, move around a barrier, and refreeze to move the glacier forward.

Internal Plastic Flow Internal plastic flow is the process in which solid ice crystals slip over each other, causing a slow forward motion. The speed of internal plastic flow varies throughout the layers of the glacier. Areas of less friction, such as top and center, flow quicker than areas that are in contact with the earth.

Glacial Features Glacial Features Crevasses are large cracks formed in the brittle surface of the glacier by buckling of the ice from tension and compression.

Crevasses

Ice Shelves Ice shelves are areas of continental ice sheets that have moved out into the ocean. The largest ice shelve is the Ross Ice Shelf which covers an area the size of Texas.

Ice Shelf

Icebergs Icebergs are large chunks of ice that break off at the end of an ice shelf or glacier and are carried out to sea. Approximately 90% of the iceberg is below water.

Iceberg