All About Waves Notes
The coast is a narrow contact
zone between land and sea.
-A wave is a long curled body
of water that arches and breaks when it reaches shore. The cause of a wave is
the transfer of energy from the wind on the surface of the water.
-Larger waves are formed when
winds are strong, blow for long periods of time across large areas of water.
-The max distance of water
over which winds can blow is called the fetch
How a wave is formed:
Step 1: Wind blows upon a
surface of water, the water particles in the wave move in a circular motion.
Step 2: As the seabed become
more shallow the friction between the seabed causing the base of the wave to
slow down
Step 3: The top of the wave
unaffected by friction increases in height and steepness and the wave starts to
topple over called “breaking” The swash, the remnant of the wave moves energy
forward, while the backwash transfers energy back.
Constructive
-Created in calm weather
-Break on shore and deposits
materials
-Stronger swash compared to
backwash
-Long wavelength, low height
-Created in stormy weather
-Are created from big,
strong waves when the wind is powerful and has been blowing for a long time.
-Occur when wave energy is high and the wave has travelled over a long fetch.
-Occur when wave energy is high and the wave has travelled over a long fetch.
-Tend to erode the coast.
-Have a stronger backwash than swash.
-Have a stronger backwash than swash.
- a short wave length and are high and steep.
How can waves erode the earth?
How can waves erode the earth?
Hydraulic action: lots of sea water crashes against the land, causing air and water to become trapped and compressed in surface cracks. When the sea retreats the air expands, weakening the cracks in the rock and causing pieces of the rock to break off.
Corrasion: caused by bits of rock hitting the cliffs and other parts of the land, causing more bits of rock to break off.
Attrition: rock fragments grind each other down into smaller and smoother pebbles and eventually into sand which is then deposited on the beaches.
Corrosion: involves the chemical action of sea on rock, often happens with limestone beaches, when the limestone dissolves in the sea water although the salt can affect some other stones as well.
Corrasion: caused by bits of rock hitting the cliffs and other parts of the land, causing more bits of rock to break off.
Attrition: rock fragments grind each other down into smaller and smoother pebbles and eventually into sand which is then deposited on the beaches.
Corrosion: involves the chemical action of sea on rock, often happens with limestone beaches, when the limestone dissolves in the sea water although the salt can affect some other stones as well.