Meteorology

Question 1

What to do before reading a barometer?

Answer 1

gently tap the glass

Question 2

What is the purpose of the 2nd pointer on a barometer

Answer 2

Adjusted manually to current pressure, can see later if rising or falling

Question 3

Difference between barograph and barometer
How do they work?

Answer 3

Barograph draws a graph!
shows readings/ Trend for 7 days
Aneroid cell - Thin metal cylinder, partly exhausted of air and sealed. sensitive to the slightest changes in pressure, and connected to a pointer to magnify the movement

Question 4

Why is there a daily range of pressure shown on the barograph?

Answer 4

The Diurnal Range
Atmospheric pressure waves, period of nearly 12 hrs
caused by daily heating and cooling
sweep around the earth from East to west
Max in tropics of 3mb, decreasing north and south

Question 5

What is a Psychrometer

Answer 5

Wet and dry bulb thermometer
Known as Masons Hygrometer (Stevensons Screen - the box)

Question 6

How does a stevensons screen work

Answer 6

White box to shade thermometers from radiation heat, giving only air temp
2 thermometers, 1 regular, giving air temp,
1 kept wet by muslin dipped in a reservoir of distilled water, to give humidity. As the water evaporates, it loses heat, so the wet bulb is a lower temperature

The difference between the thermometers indicates the relative humidity.
Very little difference - 100% humidity
Large difference - low humidity

Question 7

How do you use a Masons hygrometer to predict fog

Answer 7

Use the table in the Mariners Handbook
Dry bulb temp down the side/ depression of the wet bulb along the top
Read off the dew point
If Dew point is within 5ºC of the Sea temp, fog may form
Frequent observations allow you to graph dew point and sea temp to predict fog ahead of time

Question 8

What is the Whirling Psychrometer?

Answer 8

Another hygrometer - wet and dry bulb thermometer
Both thermometers side by side, 1 wrapped in wet cloth
Whirl that MoFo around for 1 minute
Repeat several times until bored or lowest Wet bulb Temp obtained

Question 9

What is Relative Humidity

Answer 9

the amount of water vapour present in air expressed as a percentage of the amount needed for saturation at the same temperature

Question 10

What causes all fog?

Answer 10

The cooling of air, so that it becomes fully saturated by the water vapour in it, called its Dewpoint

Question 11

Sea or advection Fog
What causes it?
characteristics?
Location and time of year?

Answer 11

Warm moist air flows over a relatively cool sea
Main type of fog experienced at sea,
Will persist until conditions change
Often shallow, so mastheads may protude above it
Sometime the base sits above sea level, clear low level
In temperate and high latitudes, most common in spring and early summer, when the sea temp is lowest
Prevelant in certain areas, where prevailing winds transport warm moist air over cold ocean current.
Incuding British isles and english channel,

Question 12

Radiation fog
Causes?

Answer 12

Low lying land on clear nights
land radiates heat and cools down, cooling the air
Forming fog, this can occasionally drift out to sea but no more than 10-15 miles

Question 13

Frontal Fog?
which Fronts?
Causes?

Answer 13

Warm or Occluded Front
Common if the Air temp ahead of the front is very low
Caused by mixing of warm and cold air at the front
Rain ahead of the front may help to raise humidty
Usually confined to a narrow belt at the front, but Sea fog may develop after.

Question 14

Katabatic wind

Answer 14

Prevelant in high coastal areas
Land/Air cooling on high ground, cold dense air
Wind runs down hills/cliffs, accelerating with gravity
Can give little warning and be very powerful

Question 15

The Mistral?

Answer 15

A violent, cold, North or NW wind that accelerates through France into the Med
Caused by a high pressure in Biscay, and a Low pressure in Genoa, funneling Cold Northerly winds through

Question 16

Stratus/strato:
Cumulus/cumulo
Cirrus/cirro:
Alto:
Nimbus/Nimbo

Answer 16

Stratus/strato: flat/layered and smooth
Cumulus/cumulo: heaped up/puffy, like cauliflower
Cirrus/cirro: high up/wispy
Alto: medium level
Nimbus/Nimbo: rain-bearing cloud

Question 17

Sources of weather forecasts?

Answer 17

Own ships instruments
VHF
SafetyNET info via Inmarsat
MSI Via Navtex
Weather Routing
SatC
WeatherFax
Internet
TimeZero

Question 18

Publications with weather info?

Answer 18

Mariners Handbook
ALRS 3,4
Admiralty Routing Charts
Admiralty Sailing Directions
Admiralty Ocean Passages of the World

Question 19

Mariners handbook for weather?

Answer 19

TRS - Causes and avoidance
Formation of Fronts and depressions
Fog
Ice
Heavy weather handling

Question 20

ALRS for Weather?

Answer 20

Vol 3 frequencies for radio weather services and MSI
Vol 4 list of Met observational stations

Question 21

Admiralty routing charts for weather?

Answer 21

All major oceans for each month of the year
Display average conditions for that month
Wind roses
currents
sea temps
fog and ice
tracks of TRS

Question 22

Admiralty sailing directions for weather?

Answer 22

details of coastal areas, safe anchorages, nav hazards
prevailing conditions
Gives some average pressures for certain areas

Question 23

Ocean passages of the world for weather

Answer 23

wealth of info on ocean voyage planning
for each of the worlds oceans
notes on weather, currents, swell and Ice for common routes

Question 24

What is a TRS

Answer 24

A tropical Revolving Storm
a Fecking hurricane, typhoon, cyclone

Question 25

Causes and characteristics of a TRS?

Answer 25

Sea surface temps of at least 26ºC
Latitudes between 8-15ºN or S
Generally form at the east end of Oceans and track West
May re-curve upon reaching 20ºN/S and hitting the westerly trade winds

Question 26

Hurricane seasons?
in the Caribbean?

Answer 26

At the end of the local summer, when sea temps are highest
Caribbean June - October

Question 27

Signs of an approaching TRS?

Answer 27

Barometer drops 3mb below average (within 5 hrs)
Significant change in wind direction or strength
Long low swell from approximate centre of storm
Heavy rain
High cirrus cloud followed by broken cumulous

Question 28

Imminent?
Soon?
Later?

Answer 28

Imminent: within 6 hrs
Soon: within 6-12 hrs
Later: more than 12 hrs
From time of issue

Question 29

Average speed of a weather system?

Answer 29

20 knots,
Steadily = 15-25 knots

Question 30

Gale and Hurricane force winds?

Answer 30

Gale = Bf 8 - 34-40 Kn
Hurricane Bf 12 - 64Kn or More

Question 31

Visbility?
Very Poor
Poor
Moderate
Good

Answer 31

Very Poor = less than 1000m
Poor = 1000m - 2M
Moderate = 2-5M
Good = 5M +

Question 32

Wind
Becoming Cyclonic
Veering
Backing

Answer 32

Becoming Cyclonic = considerable change in wind direction across the path of a depression within the forecast area.

Veering = Clockwise - SW to W
Backing = Anitclockwise - SW to S

Question 33

Sea State:

Smooth

Slight

Moderate

Rough

Very Rough

High

Very High

Phenomenal

Answer 33

Smooth
Wave height less than 0.5 m.

Slight
Wave height of 0.5 to 1.25 m.

Moderate
Wave height of 1.25 to 2.5 m.

Rough
Wave height of 2.5 to 4.0 m.

Very Rough
Wave height of 4.0 to 6.0 m.

High
Wave height of 6.0 to 9.0 m.

Very High
Wave height of 9.0 to 14.0.

Phenomenal
14+

Question 34

Passage of a low
Conditions of an approaching Warm Front

Answer 34

Wind Backs and increase
Cloud Thickens into lowering layers
Weather Increasing rain
Pressure Decreasing
Temperature Increasing
Visability Decreases in rain

Question 35

Passage of a low
Conditions in the Warm Sector

Answer 35

Wind Veers and increases
Cloud Low level layers
Weather drizzle and maybe fog
Pressure rate of fall slows and steadies
Temperature increasess ad steadies
Visability Mod or poor

Question 36

Passage of a low
Conditions of an approaching Cold Front

Answer 36

Wind Backs and increases
Cloud Increasing mid/high clouds (maybe Large Cumulonimbus)
Weather Rain recommences
Pressure Decreasing
Temperature steady
Visability Moderate

Question 37

Passage of a low
Conditions at the cold Front

Answer 37

Wind Veers and increases
Cloud Cumulonimbus, breaks as front clears
Weather heavy rain / squalls
Pressure sharp increase
Temperature sharp decrease
Visability Sharp increase after squalls

Question 38

Wind at:
Approaching warm Front
Warm Sector
Approaching cold front
Cold Front

Answer 38

Approaching warm Front Backs and increases
Warm Sector Veers and increases
Approaching cold front Backs and increases
Cold Front Veers and increases

Question 39

Cloud at:
Approaching warm Front
Warm Sector
Approaching cold front
Cold Front

Answer 39

Approaching warm Front Thickening into lower layers
Warm Sector Low level layers
Approaching cold front Increasing mid/High cloud
Cold Front Cumulonimbus

Question 40

Weather at:
Approaching warm Front
Warm Sector
Approaching cold front
Cold Front

Answer 40

Approaching warm Front Increasing rain
Warm Sector Drizzle, potentially fog
Approaching cold front Precipitation restarts
Cold Front Squalls and heavy showers

Question 41

Pressure at:
Approaching warm Front
Warm Sector
Approaching cold front
Cold Front

Answer 41

Approaching warm Front Decreasing
Warm Sector Decreasing and steadying
Approaching cold front Decreasing
Cold Front Sharp increase

Question 42

Temperature at:
Approaching warm Front
Warm Sector
Approaching cold front
Cold Front

Answer 42

Approaching warm Front Increasing
Warm Sector Increasing and then Steady
Approaching cold front Steady
Cold Front Sharp decrease

Question 43

Visability at:
Approaching warm Front
Warm Sector
Approaching cold front
Cold Front

Answer 43

Approaching warm Front Decreasing in rain
Warm Sector Mod or Poor
Approaching cold front Mod
Cold Front Poor in squall, improving after

Question 44

Dew point at
Approaching warm Front
Warm Sector
Approaching cold front
Cold Front

Answer 44

Approaching warm Front Increasing
Warm Sector Increasing
Approaching cold front Steady
Cold Front Sharp fall

Question 45

What info do we need to easure wind speed on a synoptic chart?

Answer 45

Our latitude
Measure the distance between the isobars at the location
Then compare to the scale to get the geostrophic wind speed
Wind at sea level is 70% the geostrophic wind speed

Question 46

How high are geostrophic winds?

Answer 46

600m

Question 47

What is the ITCZ?
What effect does it have

Answer 47

Intertropical Convergence Zone/ Equatorial Trough
Thermal equator, As it moves N/S with the season, has a marked changed on weather conditions
It pulls pushes the Cells as it moves

Question 48

What effect does land and sea friction have on the wind?

Answer 48

Reduces the coriolis Force
Cause wind to back in Northern hemisphere
deflected 15º and slowed 25% over sea
Deflected 30º and slowed 50% over Land

Question 49

When does wind Convergence occur in the Northen hemisphere

Answer 49

When the wind is behind you and Land is on you right

Question 50

What Is buys Ballot Law?

Answer 50

In the Northern Hemisphere, with the wind on your back the lower pressure is on your left side

Question 51

Where are the Trade winds?
what direction to they blow?

Where are the westerlies?

Answer 51

up to 30º N/S
NE in the N hemisphere

40-60º N/S

Question 52

Where are the Horse latitudes?

Answer 52

30-40º N. Light and variable winds

Question 53

Average pressure at sea level?
WHat is key for using pressure for forcasting

Answer 53

1013 mb
The Trend, one measurement is useless
The barometer does not even need to be calibrated correctly, just need to know if it is going up or down

Question 54

How can you tell which side of a trs you are?
Which is the navigable side?

Answer 54

If the Wind is Veering, you are north of it NE to E
Backing, you are south of it NW to W
Steady, you are right in front of it! Northerly

The south side, in the Northern hemisphere, system moves east but wind is from west, so relatively safe
Also, South side the wind will push you away

Question 55

How to use a precision barometer

Answer 55

adjust the dial until the light breaks on/off
Read off the pressure
Correct to sea level via table

Question 56

What is a trough

Answer 56

Black line on a synoptic chart
Show an area of relatively low pressure

Question 57

How can you tell if a front is building or fading?

Answer 57

Building/frontogenesis - Dots in the line
Fading/frontolysis - Hashes accross the line