Tides and Currents

Question 1

What is the global ocean conveyor belt?

Answer 1

This is a constant circulation of water driven by temperature and salinity.

Question 2

What type of water sinks to the bottom in the global ocean conveyor belt?

Answer 2

Cold, salty water.

Question 3

What waster rises to the top in the global ocean conveyor belt?

Answer 3

Warm water.

Question 4

What will cause the water to return to the surface?

Answer 4

The wind and also the mixing of the warm and cold water.

Question 5

What drives ocean currents?

Answer 5

Wind drives ocean currents within 100m of the surface.

Question 6

Where does the global ocean conveyor belt start?

Answer 6

It starts in the Norwegian Sea.

Question 7

Which direction does the global ocean conveyor belt move?

Answer 7

It moves south.

Question 8

What is upwelling?

Answer 8

This is a type of current that can move sediment. Cold water moves from deep in the ocean towards the surface. This cold water replaces the warmer surface water which creates nutrient rich, cold ocean currents which form part of the global ocean circulation currents.

Question 9

What does upwelling allow?

Answer 9

It allows a high amount of biological activity. Therefore there are more fish which is good for fishing.

Question 10

What is the reverse of upwelling?

Answer 10

Down welling.

Question 11

What causes down welling?

Answer 11

This happens when wind causes the surface water to build up along a coastline. This build up of water sinks to the ocean bed.

Question 12

What is a current?

Answer 12

This is a mass flow of water. They describe the motion of water.

Question 13

What are currents influenced by?

Answer 13

Tidal currents
Wind
Thermohaline circulation.

Question 14

What is a tidal current?

Answer 14

This is the rise and fall of the tide. It is the vertical motion of the tides near the shore.

Question 15

What drives thermohaline circulation?

Answer 15

Density differences.

Question 16

What is coriolis force?

Answer 16

This is the force from the gravitational rotation of the Earth.

Question 17

How do tidal currents change?

Answer 17

They change in a very regular way and so can be predicted.

Question 18

What drives tidal currents?

Answer 18

Winds drive currents at or near to the oceans surface at either a localised or global scale.

Question 19

What is meant by a globalised scale?

Answer 19

This means the open ocean.

Question 20

What is meant by a localised scale?

Answer 20

This is near coastal areas.

Question 21

Where do currents that are driven by thermohaline circulation occur?

Answer 21

They occur at both deep and shallow ocean levels and move much slower than tidal or surface currents.

Question 22

What are currents measured in?

Answer 22

They are typically measured in knots.

Question 23

How do you work out the speed of a current?

Answer 23

This is distance/time.

Question 24

How do you work out current velocity?

Answer 24

speed x direction

Question 25

What are the four types of current?

Answer 25

Littoral drift/ longshore currents
Rip currents
Flood currents
Ebb currents

Question 26

What is an ebb current?

Answer 26

This is essentially the outgoing tide.

Question 27

What is a flood current?

Answer 27

This is the incoming tide along the coast into bays and estuaries.

Question 28

What type of current drives longshore drift?

Answer 28

Littoral drift/ longshore currents.

Question 29

What direction are long shore currents?

Answer 29

These run parallel to the shoreline and the waves approach the beach at an angle. Backwash then transports material.

Question 30

Are rip currents dangerous?

Answer 30

They are dangerous for swimmers and small boats.

Question 31

What causes rip currents?

Answer 31

Sea water is piled up against the coastline by incoming waves.

Question 32

Which way do rip currents flow?

Answer 32

They run parallel to the coast before flowing out through the breaker zone, possibly the headland or where the coast changes direction.

Question 33

When do the strongest ebb and flood currents occur?

Answer 33

The occur before or near the time of high and low tide.

Question 34

When do the weakest ebb and flood currents occur?

Answer 34

They occur at slack tides.

Question 35

What is high-tide?

Answer 35

This is when the crest of a wave reaches a particular location.

Question 36

What is a low-tide?

Answer 36

This corresponds to the trough of a wave reaching a particular location.

Question 37

What is the tidal range?

Answer 37

This is the difference in height between high and low tide.

Question 38

What is the crest?

Answer 38

This is the highest part of a wave.

Question 39

What is thetrough?

Answer 39

This is the lowest part of a wave.

Question 40

What is a tide?

Answer 40

This is the periodic rise and fall of the level of the sea.

Question 41

What controls tides?

Answer 41

The forces from the moon and the sun.

Question 42

What do tide appear as when they reach the coastline?

Answer 42

They appear as the regular rise and fall of the sea surface.

Question 43

Why are tides studied?

Answer 43

Safe navigation
Recreation
Coastal development
Fishing
Habitat restoration
Projects such as bridge constructions.

Question 44

What is the difference between tides and currents?

Answer 44

Tides are driven by coriolis force whereas currents describe the flow of water.
Tides flow up and down and follow a pattern but currents are influenced by numerous factors.

Question 45

What happens as the position of the moon changes

Answer 45

Two tidal bulges rotate around Earth.

Question 46

What do the tidal bulges represent?

Answer 46

They represent high tide.

Question 47

What causes the tides to cycle around the planet?

Answer 47

As the Earth spins, different areas of the planet face the moon and it is this rotation that causes the ides to cycle around the planet.

Question 48

When do high tides occur?

Answer 48

They occur every 12 hours and 25 minutes.

Question 49

What is the time span between high and low tide?

Answer 49

There is a span of 6 hours and 12.5 minutes between high and low tides.

Question 50

Where are the two tidal bulges?

Answer 50

One is in front of the moon and the other is on the directly opposite side of the Earth.

Question 51

What causes the tidal bulge?

Answer 51

A greater and lesser gravity than the centre of the Earth.

Question 52

What is the spring tide?

Answer 52

This produces the highest monthly tidal range.

Question 53

What causes the spring tide?

Answer 53

This happens when the sun, moon and Earth are all in line, making the tide raising force the strongest/

Question 54

What is the neap tide?

Answer 54

This gives the lowest monthly tidal range.

Question 55

What causes a neap tide?

Answer 55

This happens when the moon and sun are perpendicular to each other in relation to the Earth.

Question 56

How often do spring tides occur?

Answer 56

Twice a lunar month.

Question 57

How often do neap tides occur?

Answer 57

Twice a lunar month.

Question 58

What are storm surges?

Answer 58

These are times when meteorological conditions give rise to strong winds which can cause much higher water levels than at high tide.

Question 59

What is another crucial factor in determining the effects of wave action?

Answer 59

The topography of the coastline.

Question 60

What happens when waves approach a coastline that is not a regular shape?

Answer 60

The waves are refracted and become increasingly parallel to the coastline.

Question 61

What happens as each wave approaches the coast?

Answer 61

It tends to drag in the shallow water which meets the headland.

Question 62

What effect does this drag have on the wave?

Answer 62

The wave height and steepness increases whilst the wavelength shortens.

Question 63

What part of the wave moves faster?

Answer 63

The part of the wave in the deeper water moves faster.

Question 64

What part of the water moves faster?

Answer 64

The part of the wave that is in the deeper water, causing the wave to bend.

Question 65

What is the overall effect of the bent wave?

Answer 65

Wave energy becomes concentrated on the headland.

Question 66

What happens as a result of the increased wave concentration on the headland?

Answer 66

There is more erosion at the headland.

Question 67

What type of wave spills in the bay?

Answer 67

Low energy waves spill in the bay.

Question 68

What happens when the low-energy waves reach the bay?

Answer 68

They deposit material.

Question 69

What happens as the waves pile against the headland?

Answer 69

There is a slight local rise in sea level that results in a longshore current from the headland, moving some eroded material to the bays.

Question 70

What type of frequency do low energy waves have?

Answer 70

They have a low frequency.

Question 71

What type of wavelength do constructive waves have?

Answer 71

They have a long wavelength.

Question 72

What type of wave height do constructive waves have?

Answer 72

They have a low wave height.

Question 73

What is the frequency of constructive waves?

Answer 73

6-8/min

Question 74

What tends to be stronger in a constructive wave: the awash or the backwash?

Answer 74

The swash.

Question 75

What type of wave builds up the beach?

Answer 75

Constructive

Question 76

What type of wave erodes the beach?

Answer 76

Destructive

Question 77

What kind of wave height do destructive waves have?

Answer 77

They have a high wave height with a steep form.

Question 78

What type of frequency do destructive waves have?

Answer 78

10-14/min

Question 79

What is swash?

Answer 79

This is the rush of water up the beach after a wave breaks.

Question 80

What is backwash?

Answer 80

This is the action of water receding back down the beach towards the sea.

Question 81

What happens to the wave front steepness as constructive waves approach the beach?

Answer 81

It steepens slowly, causing the waves to spill gently on onto the beach.

Question 82

What type of wave makes berms?

Answer 82

Constructive waves make berms when their swash pushes material up the beach and because their backwash isn’t strong enough to move it back down.

Question 83

What happens to the steepness of destructive waves as they approach the beach?

Answer 83

They rapidly steepen and plunge down when they break this creates a powerful back wash because there is a very small forward movement of water, it also inhibits swash from the next wave.

Question 84

What type of beach profile is associated with destructive waves?

Answer 84

A steeper beach profile.

Question 85

What type of wave is associated with a storm beach?

Answer 85

The force of each destructive wave may project some shingle well towards the rear of the beach where it forms a large ridge known as the storm beach.

Question 86

True or false: a beach can only experience either destructive or constructive waves?

Answer 86

This is false, beaches are subject to an alternating cycle of destructive and constructive waves.

Question 87

What happens as the beach profile becomes steeper because of constructive waves?

Answer 87

This encourages waves to become more destructive.

Question 88

What is an example of negative feedback?

Answer 88

The alternating cycle of constructive and destructive waves.