Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity...

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Waves and Coasts

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Transcript of Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity...

Page 1: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,

Waves and Coasts

Page 2: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 3: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,

waves

• Agents of erosion• as get closer to shore:

– wavelength decreases– velocity decreases– amplitude increases– in shallow water, waves BREAK

Page 4: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 5: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,

• Breaking waves scoop out a TROUGH and deposit a BAR

Page 6: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 7: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,

• Turbulent water from breaker rushes up beach (SWASH) and then flows back (BACKWASH)

• waves come in to the shore at an angle (REFRACTION)

Page 8: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 9: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,

Consequence of wave refraction

• Littoral Drift– Beach drift: movement of sand

particles down the beach by swash and backwash

– Longshore drift: movement of particle just offshore by the longshore current (parallel to beach)

Page 10: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 11: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,

Landforms resulting from littoral drift:

1. Spit (e.g., Park Point)

Page 12: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 13: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 14: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 15: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,

Landforms resulting from littoral drift:

2. baymouth bar and lagoon

Page 16: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 17: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,

Landforms resulting from littoral drift:

3. tombolo

Page 18: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 19: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,

Stockton Island, Apostle Islands

Page 20: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,

On an embayed coast,

• Wave energy converges on HEADLANDS, and therefore erosion is concentrated there: CLIFFS

• BAYS receive less energy, less erosion,and therefore deposition of sand occurs there: BEACHES

Page 21: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 22: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 23: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 24: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 25: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 26: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,

landforms on the headlands:

1. Wave-cut abrasion platforms:– sloping rock surfaces abraded by

waves beneath breakers

Page 27: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 28: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,

landforms on the headlands:

2. Wave-cut notches

Page 29: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 30: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 31: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,

landforms on the headlands:

3. Sea stacks and sea arches

Page 32: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 33: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 34: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 35: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 36: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,

Where does beach sand come from?

• Erosion of headlands• offshore material brought to shore• fluvial sediment

Page 37: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 38: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 39: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,

Types of coastlines

1. Ria Coast:– coast that was formerly dissected by

stream valleys; then sea level rose and inundated the valleys

Page 40: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 41: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 42: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,

Types of coastlines

2. Fiord coast: – coast that was formerly dissected by

glacial troughs; then sea level rose and they became inundated

Page 43: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 44: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 45: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,

Types of coastlines

3. Barrier Island Coast:– sand bars (barrier islands) created by

littoral drift, parallel shore, enclose lagoons

Page 46: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 47: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 48: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 49: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 50: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 51: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,

Types of coastlines

4. Delta coast:– where a stream enters the ocean;

deposits a delta

Page 52: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 53: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 54: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 55: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,

Types of coastlines

5. Volcano and Coral reef coast:– coral reef builds around volcanic

island; begins as a fringing reef; as volcano erodes, becomes a barrier reef; eventually volcano is eroded below surface of water; coral reef remains as an atoll

Page 56: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 57: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 58: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,

Types of coastlines

6. Fault coast:– land surface is uplifted (isostatic

rebound) or sea level drops; marine cliffs and abrasion platforms are raised

Page 59: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 60: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,
Page 61: Waves and Coasts waves Agents of erosion as get closer to shore: –wavelength decreases –velocity decreases –amplitude increases –in shallow water,

Anomalous Propagation Greater density slows the waves more. Less dense air does not slow the waves as much. Since density normally decreases with height,

Anomalous Propagation Greater density slows the waves more. Less dense air does not slow the waves as much. Since density normally decreases with height,

Waves and turbulence in the solar wind€¦ · Turbulence 19 Dominance of outward-propagating waves • Solar wind accelerates as it leaves the corona • Alfvén speed decreases

Waves and turbulence in the solar wind€¦ · Turbulence 19 Dominance of outward-propagating waves • Solar wind accelerates as it leaves the corona • Alfvén speed decreases

Coasts Chapter12

Coasts Chapter12

Waves: Undulatory Motion of a Water Surfacemitterer/Oceanography/pdfs/OCE7Waves.pdfShallow-Water Waves When waves enter shallow water: Wave speed decreases Wave length decreases Wave

Waves: Undulatory Motion of a Water Surfacemitterer/Oceanography/pdfs/OCE7Waves.pdfShallow-Water Waves When waves enter shallow water: Wave speed decreases Wave length decreases Wave

Appendix C - Marine and coasts - Marine and coasts

Appendix C - Marine and coasts - Marine and coasts

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Lo5 waves,currents,coasts

Waves Beaches and Coasts

Waves Beaches and Coasts

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The history of this changing coast In the midst of ... · All coasts are dynamic; waves and tides bring pebbles and sand and those same waves and tides can take them away again. Beaches

The history of this changing coast In the midst of ... · All coasts are dynamic; waves and tides bring pebbles and sand and those same waves and tides can take them away again. Beaches

Tectonic Classification of Coasts Tectonic effects on coastal …fbuon/PGEOG_334/Lecture... · 2007-02-06 · 2. Trailing Edge Coasts Neo-trailing edge coasts Afro-trailing edge coasts

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Chapter 9 Oceans and coasts - Department of … · Oceans and coasts | 155. Chapter 9. Oceans and coasts. Ocean and coasts ecosystem services are important as they directly and ...

Chapter 9 Oceans and coasts - Department of … · Oceans and coasts | 155. Chapter 9. Oceans and coasts. Ocean and coasts ecosystem services are important as they directly and ...

Ocean Friendly Gardens: A Guide to Gardening for Cleaner Waves and Coasts - Surfrider

Ocean Friendly Gardens: A Guide to Gardening for Cleaner Waves and Coasts - Surfrider

COASTS. Theme Overview COASTS COASTAL PROCESSES COASTAL LANDFORMS COASTAL MANAGEMENT.

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Primary Coasts Young coasts Terrestrial influences dominate Types –Land erosional coasts –Built out by land processes –Fault Coasts.

Primary Coasts Young coasts Terrestrial influences dominate Types –Land erosional coasts –Built out by land processes –Fault Coasts.

GCSE GEOGARPHY OCR B REVISION GUIDE Coasts · 2011-04-07 · - Material is moved along the coastline by the waves. - Waves will often approach the coast at an angle, carrying material

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1. A wave transports energy but not matter. 2. As the frequency of sound waves increases, the wavelength of the sound waves decreases.

1. A wave transports energy but not matter. 2. As the frequency of sound waves increases, the wavelength of the sound waves decreases.