WA L1: How do Waves Work

Question 1

How many oceans in the world?

Answer 1

Only one world ocean

Question 2

Name the ocean basins. (Past and modern)

Answer 2

Arctic, Atlantic, Indian, Pacific, Southern (modern day)

Question 3

Describe surface currents.

Answer 3

Currents caused by very large scale, permanent winds that blow over the ocean. They transport both matter (water) and energy.

Question 4

Describe waves. Technical def’n?

Answer 4

Technical def’n: the mechanical expression of energy.

Caused by winds that blow occasionally or over smaller areas. Waves transport energy in the direction of the wave.

Question 5

What is a crest?

Answer 5

highest point of a wave

Question 6

What is a trough?

Answer 6

lowest point of a wave

Question 7

Define wavelength L (or lambda)

Answer 7

distance between two successive crests or two successive troughs of a wave. Unit: meters

Question 8

Define wave height H

Answer 8

vertical distance between crest and trough (meters)

Question 9

Define amplitude (a)

Answer 9

vertical distance between crest calm sea level or between trough and calm sea level or half the vertical distance between a crest and a trough; H ÷ 2; (metres)

Question 10

Define period T

Answer 10

time for one wavelength to pass a point; (minutes or seconds)

Question 11

Define frequency f

Answer 11

number of waves passing a point per unit of time; (per minute or second)

Question 12

Define celerity or speed

Answer 12

distance traveled per unit time; (metre per second)

Question 13

Define steepness

Answer 13

a measure of the “peakedness” of a wave; the ratio of Height to Wavelength, H / L; (no units)

Question 14

What is the energy transported by waves related to?

Answer 14

related to wave height H; but this only applies to deep-water waves.

Question 15

Waves with great heights transport more _____ than waves with shorter heights.

Answer 15

energy

Question 16

Usually, waves with great heights also have long _____.

Answer 16

wavelengths

Question 17

At any one instance, some wind waves may carry as much or even more energy than waves generated by earthquakes, storms or even the gravitational attraction between the Sun and Earth and the Moon and Earth (tides). So why is the total amount of energy from the disasters much larger compared to wind-driven waves?

Answer 17

wind waves are at one location for very short periods of time (seconds), while larger waves last for longer (minutes, hours, days).

Question 18

What is generating force?

Answer 18

the force that disturbs the water or causes waves to form

Question 19

What are the 4 wave types? (GF)

Answer 19

Wind wave, seiche, tsunami, tide

Question 20

What is the generating force for a wind wave?

Answer 20

wind over ocean

Question 21

What is the generating force for a seiche?

Answer 21

changes in atmospheric pressure; storm surge; tsunami

Question 22

What is the generating force for a tsunami?

Answer 22

Faulting of sea floor;
Undersea volcanic eruption;
Landslide into ocean

Question 23

What is the generating force for a tide?

Answer 23

Gravitational attraction between Earth-Sun and Earth-Moon;

Rotation of Earth

Question 24

What is the typical wavelength for a wind wave?

Answer 24

60-150m

Question 25

What is the typical wavelength for a seiche?

Answer 25

large; variable; a fraction of basin size

Question 26

What is the typical wavelength for a tsunami?

Answer 26

200 km

Question 27

What is the typical wavelength for a tide?

Answer 27

1/2 circumference of Earth, 20 000 km

Question 28

Most common wave type in the ocean? (GF)

Answer 28

wind-generated waves

Question 29

Which waves are generated by forces that occur episodically?

Answer 29

Seiches and tsunamis

Question 30

Which type of waves rarely cause natural disasters?

Answer 30

tides

Question 31

What is restoring force for waves? How many types?

Answer 31

The force that causes water to return to its undisturbed state. Two types for RF.

Question 32

What are the two RF wave types?

Answer 32

capillary wave, surface gravity waves (comprised of wind wave, seiche, tsunami, tide)

Question 33

What causes capillary wave?

Answer 33

surface tension

Question 34

What causes surface gravity waves?

Answer 34

gravity

Question 35

Typical wavelength for capillary wave?

Answer 35

< 1.7 cm

Question 36

Typical wavelength for surface gravity wave?

Answer 36

> 1.7 cm

Question 37

Describe capillary waves

Answer 37

tiny waves with wavelengths about fingernail size. They are important in the generation of wind-driven waves.

Question 38

How can water remain relatively calm with only fine ripples when only a weak, gentle wind is blowing?

Answer 38

because water has a very high surface tension

Question 39

Describe how wind-driven waves are generated.

Answer 39

When wind blows over a calm sea, capillary waves are generated first. As the wind continues and strengthens, more energy is transferred to the ocean surface and the waves grow into those that can only be restored by gravity.

Question 40

What is an assessment of the ocean’s conditions or the roughness of the ocean surface called?

Answer 40

Sea state

Question 41

When wind blows across the ocean surface, energy is transferred from the _____ to the ocean. The wind pushes the surface “skin” of the ocean and a series of small wrinkles, the _____ waves, develops. As the wind speed __increases/decreases___, or as wind blows over _longer/shorter____ periods of time and over the ____ area, more energy is transferred to the surface ocean and the waves grow ____.

Answer 41

atmosphere; capillary; increases; longer; same; larger

Question 42

How can the amount of energy transferred to the ocean be estimated?

Answer 42

it can be estimated by the height of the waves produced

Question 43

What does it mean when the ocean has very tall waves?

Answer 43

It means that lots of energy have been transferred to it

Question 44

How are very large waves formed?

Answer 44

When the wind speed is very high. In addition, the wind must blow for a long period of time over an uninterrupted distance in the same distance in order to generate these large waves.

Question 45

What is a “fetch”?

Answer 45

The uninterrupted distance or area where the wind blows.

Question 46

The sea states depends on what three factors?

Answer 46

Wind strength/speed, fetch, wind duration (length of time that the wind has been blowing over the fetch)

Question 47

Describe how waves are generated by the wind using the words: ripple, chop, swell…

Answer 47

As wind blows over the fetch, waves are transformed from ripples to chop, then swells. A fully developed sea includes waves of varying heights, lengths, speed, and direction. As waves move away from the fetch (swell), they are well-sorted with long waves leading the wave train.

Question 48

What is chop?

Answer 48

short waves. capillary->ripples->chop.

Question 49

When is a fetch in the ocean considered fully developed? Describe this state.

Answer 49

once it has absorbed the max. amount of energy it can contain. In this state, any additional energy input by the wind is balanced by energy dissipated by breaking waves. Waves in this condition are chaotic, where there are waves of varying heights, lengths, speed, direction. The waves of a fully developed sea can achieve the maximum height possible for a given wind speed, fetch and duration of wind.

Question 50

In which condition are waves chaotic? (where there are waves of varying heights, lengths, speed, and direction)

Answer 50

the fully developed state of a specific fetch.

Question 51

As the waves move away from the fetch, what are they sorted by? What are these well-sorted waves called?

Answer 51

Their speed and wavelength. Fastest speed or longest wavelength waves leave fetch first. Slowest and shortest leave last. These sorted waves are called swells

Question 52

What are swells? What is different with them compared to the waves within the fetch?

Answer 52

Well sorted waves (by speed and consequently wavelength) leaving the fetch. They are well sorted, as opposed to the chaotic waves found within the fetch.

Question 53

What are called groups of swells that propagate away from the fetch?

Answer 53

Wave trains.

Question 54

The ____ the wind and the ____ the duration the wind is blowing over the largest of fetch, the greater the maximum wave heights achievable in that patch of ocean.

Answer 54

stronger; longer

Question 55

Why is information on the sea state or the parameters that characterize it important in the real world?

Answer 55

They are important for ocean transportation sector, forecasting storms and their effects on near shores, for sailors, and for surfers around the world.

Question 56

What is the most commonly tracked wave parameter? Why?

Answer 56

Wave height; it is a good indicator of wave energy and can easily be measured by satellite sensors.

Question 57

What is significant wave height?

Answer 57

A way to measure wave height. It is the avg height of the highest one-third of the waves (waves measured from trough to crest). Because the significant wave height is an average number, we expect to encounter a group of waves whose maximum wave height can be up to twice the significant wave height

Question 58

How to estimate significant wave height in simple terms?

Answer 58

a) List all the wave heights observed in descending order (tallest wave to shortest wave);
b) Select n of the tallest waves, where n is equal to one-third of the number of waves observed;
c) Calculate the average wave height of your selected waves;
d) This is the significant wave height.

Question 59

How do governmental space agencies produce maps of significant wave height?

Answer 59

they produce them from satellite altimetry information

Question 60

Monthly analyses for the globe show that the average wave height in the tropical Pacific is typically less than _ meters, regardless of season, whereas wave height at high latitudes (nearest the poles) in the winter hemisphere typically reaches _ to _ meters due to large storms. (Winter hemisphere refers to the hemisphere, north or south, that is experiencing winter. So, this would be the Northern Hemisphere from December to February and the Southern Hemisphere from June to August.)

Answer 60

3; 3 to 6

Question 61

What is a qualitative measure of sea state?

Answer 61

the Beaufort (Wind Force) Scale

Question 62

Describe the BeaufortScale

Answer 62

Empirical measure of wind force/intensity based on human observation of the sea state. Ranges from Beaufort number 0 (calm) to 12 (hurricane force).

Question 63

Who invented the Beaufort Scale and why?

Answer 63

Admiral Francis Beaufort. He invented it during a time when devices to measure wind speed had not yet been developed. The thirteen conditions of how a British Naval Frigate would be affected in the open ocean.

Question 64

Speed of hurricane-force winds (BF scale no.12?)

Answer 64

> 64 knots

Question 65

What would number 6 or 7 on Beaufort Scale result in?

Answer 65

Issuance of a small craft advisory

Question 66

What would a force 8 or 9 on the BF scale relate to?

Answer 66

a gale warning

Question 67

What would a force 10 or 11 on the BF scale relate to?

Answer 67

storm warning

Question 68

What would above 11 BF scale numbers relate to?

Answer 68

hurricane/cyclone warning

Question 69

How do water particles move in a wave?

Answer 69

Forward and downward in the direction of the wave propagation as the wave crest passes, then backward and upward as the trough passes. Net movement of water particles is zero.

Question 70

What kind of motion do water particles in a wave undergo?

Answer 70

circular/orbital motion

Question 71

As one goes deeper into the water column, what happens to the orbits of water particle path?

Answer 71

The orbits attenuate (decrease)

Question 72

What is the wave base? How to calculate it?

Answer 72

The max. depth at which a wave’s passing causes water motion. wave base = L / 2 (L is wavelength)

Question 73

The behaviour of a wave is mainly dependent on how the _____ compares with the ____ of the ocean it is traveling through

Answer 73

wavelength; depth

Question 74

Describe deep-water waves.

Answer 74

Waves that travel in ocean depths d equal or deeper than L/2. These waves do not feel the bottom, because their wave bases are shallower than the depth of the ocean they are passing through.

Question 75

Describe shallow-water waves.

Answer 75

Waves that are traveling n shallow water relative to their wavelengths. Where the water depth d is equal or shallower than L / 20. These waves are said to feel the bottom as the water particles near the wave base are dragging on the bottom as they move.

Question 76

Particle orbital motion of deep-water wave?

Answer 76

circular

Question 77

Particle orbital motion of transitional/ intermediate water wave?

Answer 77

circular to elliptical

Question 78

Particle orbital motion of shallow-water wave?

Answer 78

elliptical to flat

Question 79

Depth of water of transition/ intermediate water wave?

Answer 79

Depth is greater than depth L/20 and shallower than L/2

Question 80

Describe transitional/ intermediate waves.

Answer 80

waves that are in transition between deep-water wave and a shallow-water wave. It is only beginning to feel the bottom, but doesn’t fully behave like a shallow-water wave.

Question 81

What affects the speed of a wave?

Answer 81

The environment

Question 82

What is another word for deep-water waves?

Answer 82

dispersive waves. the speed of travel is related to their wavelength (distance from crest to crest). Waves with longer wavelengths travel faster than short waves.

Question 83

Equation to calculate speed of deep-water waves using wavelength?

Answer 83

S or V = sqrt(g*L/(2pi))

S or V is the speed of wave, L is the wavelength, g is the gravitational constant 9.8 m/s^2

Question 84

Equation to calculate deep-water waves from wave period?

Answer 84

S or V = 1.56 * T

T is in seconds

Question 85

What is another word for shallow-water wave?

Answer 85

Non-dispersive wave. Its wave speed is controlled only by the water depth

Question 86

In deep water, do longer waves travel faster or slower than shorter waves?

Answer 86

longer waves travel faster than shorter waves

Question 87

In shallow water, do waves travel faster or slower over shallower depth?

Answer 87

all shallow-water waves travel at the same speed when they are at the same depth, but deeper is faster.

Question 88

What is the only thing that affects shallow-water wave speed?

Answer 88

water depth

Question 89

Equation to calculate shallow-water wave speed?

Answer 89

S or V = 3.1sqrt(d)

d is depth of water

Question 90

Describe the process of shoaling

Answer 90

characteristic of waves changing as they move from the deep ocean toward the coastline and into shallower water.

Question 91

What does the depth at which waves become shallow-water waves depend on?

Answer 91

Depends on its wavelength. Long waves become shallow waves farther off-shore (deeper water) than shorter waves.

Question 92

What is the shoaling process?

Answer 92

Describes how waves change characteristics as they move from deep ocean toward coastline and into shallower water.

Question 93

How do waves change as they shoal?

Answer 93

1. Waves slow down. (All except for capillary)
2. Wavelengths shorten. The leading wave, being in shallowest water, now moves slower than the wave behind it. So the waves in the wave train tend to bunch up and wavelength shortens. Crests will soon seem to overtake the troughs.
3. Orbitals flatten. Recall that the shallow-water waves’ motion of water particles extend to the bottom of sea floor. The water particles trace flattened orbits (elliptical). At extreme, water particles at the bottom only move forward and back.
4. Energy is conserved. Total E is the same. As waves slow, their wave energy is converted to some other energy form when the wave particles drag against bottom of seafloor. Creates friction, converting wave energy to kinetic, heat, and potential energy.
5. Wave period remains the same. (measure of amount of time it takes for two successive crests or troughs to pass a point. Although wavelength of shoaling wave becomes shorter, it slows down at the same time. So wave period doesn’t change.
6. Wave height increases.. As wave shoals, the water that is moving through is packed into shallower depths. Because energy is conserved, the height of the wave must increase to compensate for the loss in water depth.
7. Waves steepen. The bunching up of waves, decrease in wavelength, and increase in wave height H increases steepness (= H/L) of the leading waves. As waves steepen, crests become more peaked (less rounded and not smooth)

Question 94

What are the only waves that do not slow down during shoaling?

Answer 94

capillary waves

Question 95

When do waves become too high for their own wavelengths and unstable and on brink of collapse?)

Answer 95

When the steepness (H/L) >= 1/7

Question 96

What happens when wave’s height becomes too tall for depth of water to support and the wave over-steepens and breaks?

Answer 96

The wave ceases to exist. It has turned into surf.

Question 97

What is the math def’n for the point where wave becomes surf?

Answer 97

H/d

Question 98

What is the math def’n for the point where wave becomes surf?

Answer 98

H/d ≈ 3/4

Question 99

Define surf

Answer 99

turbulent mass of agitated water rushing onshore during and after waves break

Question 100

Water particle motion of waves just before they break and become surf?

Answer 100

the water particles change from their circular orbital paths to a more horizontally-oriented translational path that hurls the water toward the beach

Question 101

Describe what happens after the surf stage?

Answer 101

Wave energy transferred to water (allowing it to move), and to the ocean bottom and shore. With production of surf, wave energy converted to kinetic. Energy from waves also transformed to potential energy contained within the shore, ocean bottom and surf.

Question 102

What point can the water become destructive?

Answer 102

When energy from waves is transformed to potential energy contained within the shore, ocean bottom and surf. Force of breaking ocean waves can destroy just about any structure.