Topic: Politics & GovernmentMilitary

Last updated: July 21, 2019

10.1 Form of The EarthThe Earth is neither flat, nor completely round. It is in fact what is known as an oblate spheroid. This simply means that the planet is slightly flat at the poles – and not a perfect sphere as one might imagine. This compression results in the polar diameter being approximately 23 nautical miles shorter than the equatorial diameter. For practical purposes however, the earth is assumed a perfect sphere for ease of calculations.

Circles on the Earth: Great Circles (GC) when drawn on the surface of a sphere, will have the same center and radius of the sphere itself. So only one GC can be drawn between two points unless they are diametrically opposite, such as the North and South poles. In which case any number of great circles can be drawn between them.The significance of this is that the shorter arc between two points on a great circle represent the shortest distance over the surface of the earth and therefore the shortest time between the two points.Radio waves follow great circle paths over the Earth and if we are to plot radio bearings we need first be able to plot great circles.Small Circles drawn on the surface of the Earth is any circle whose center and radius are not those of the Earth itself. Parallels of Latitude are small circles used for position finding.PositionAccurate position finding on Earth’s surface is achieved with the use of a system of Great Circles connecting the North and South Poles whereas parallels run from East to West.

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A simple cross reference allows us to plot specific accurate locations.Lines of Longitude connect North and South Poles, each Great Circle is divided into two halves, a Meridian and an anti-Meridian. Lines of longitude are therefore Meridians. These Meridians run 180 deg. East and West of the Prime Meridian (Greenwich Meridian running through the Greenwich Observatory in England).The equator is the first Parallel of Latitude, and the only parallel to be a Great Circle.

As the Parallels move 90 deg. North or South of the equator they reduce in size as they move towards the poles (all of which are now small circles)By bringing the two together we are able to plot accurate positions on the Earth’s surface known as coordinates. This is a combination of Latitude and Longitude, for example 260S 280E. This position can be made more accurate by breaking the degrees down into minutes and then the minutes into seconds. One degree therefore consists of 60 minutes and each minute is 60 seconds. A more accurate position could now be given as:260 09′ 01” S and 280 15′ 32” E. It is important to remember that latitude is always given first.

ConvergencyMeridians are semi great circles, all meeting at the poles. Since the Earth is a sphere it follows that these meridians converge as they run towards the poles. This convergence is measured in terms on an angle of inclination, small at the equator and increasing in significance towards the poles.

This becomes important when plotting bearings on a chart. We have discussed that the shortest arc between two points on a great circle will provide the shortest distance, however the angle at which this line will cut through various Meridians will vary quite significantly, the extent of which depending on the changing convergency.When plotting, we draw a straight line between two points, a great circle representing the shortest route we wish to fly. This is called a track, and the angle between the track and a Meridian relative to True North gives us our bearing. As our track line passes through various Meridians, the bearings are bound to change because of convergency. Unless we are following the equator – at which point convergency is zero, increasing towards the poles. Since this is rarely the case, we will need to constantly alter our heading to remain on track, which is an inconvenient means of navigation. The solution to this is the Rhumb Line which cuts the meridians at a constant angle, however this Rhumb Line is no longer the shortest distance or straight line but rather a curved one, increasing our distance travelled over the ground.

Whether we choose to plot Rhumb Lines or great circle tracks will depend on our latitude and distance travelled. In South Africa we tend to plot great circle tracks as we don’t experience substantial convergence. Remember;Meridians are great circles and Rhumb Lines as they are a constant North/ South direction (as is the equator).All parallels of latitude are Rhumb Lines.

The conversion angle is the angular difference between the Rhumb Line and great circle.10.2 TimeEarth’s OrbitThe Earth rotates about its axis from west to east. One full revolution taking approximately 24 hours known as a mean solar day. Simultaneously the Planet is revolving around the sun, completing an elliptical orbit in about 365 and on quarter days. Although this is inconvenient, it explains the intention of a leap year every 4 years to adjust for the additional quarter day. The N/S axis of the Earth is tilted, and remains fixed throughout its orbit, giving the illusion of the sun moving from the Tropic of Cancer (23.

50 North) to the Tropic of Capricorn (23.50 South) and back within a year giving us the changing seasons. Local Mean Time (LMT)The time at a particular meridian is known as the LMT and is the same for the entire length of the meridian. One rotation of 3600 takes 24 hours, therefore in one-hour Earth will have rotated 150. With the position and time of any location, we can now calculate the time at another known location.

EXAMPLE: LMT at Position A (longitude 300 East) is 1130, calculate the LMT for Position B(Longitude 750 East).SOLUTION: Change in Longitude (75-30 = 45 E). *Position B is East, therefore later in the day45 150 (1 hour) = 3 hoursPosition B LMT = 1430Standard TimeDue to the time differences within the same country (almost an hour between Durban and Alexander Bay) a need for standardization becomes apparent. The first consideration for this is a starting point. Since time changes with longitude and longitude starts at the Greenwich Meridian (Latitude 000), it makes sense to use this as our datum. The LMT at the Greenwich Meridian is now called Universal Time Coordinated (UTC). Remember time East of the Greenwich Meridian will always be later whereas time to the West will be earlier.

The principle of standard time is based on the concept of time zones. Basically, the earth is divided into zones, each comprising 150 – one hour. Standard time is flexible in that it allows a country to adopt one zone as its standard time. Going back to the Alexander Bay example, which is situated in a different zone to the rest of South Africa, however we have a standard time factor (STF) meaning the entire country is UTC + 2 hours (effectively one zone). In other words, if the time at Greenwich is 1000, the time in South Africa will be 1200.Problems still exist with international travel and all these different time zones.

Standardization regarding time reporting is therefore necessary.First off, we make use of military time or the equivalent of a 24-hour clock. Midnight being 0000, midday 1200 and 6 pm as 1800. To standardize this for international travel, Pilots refer to Universal Time Coordinated (UTC). A pilot departing from South Africa at 0600 (LMT) would report departure time as 0400 (UTC).

Sunrise and SunsetIt is important to have an understanding of these two terms, as they are used in the regulations governing and distinguishing between day and night flight. The times of sunrise and sunset vary with latitude, altitude and according to the seasons as well. In order to fly at night, pilots must hold the required rating, without which he/she should stay within the bounds of the law with sufficient planning. Contact your local aviation meteorology office for a table of local sunrise and sunset times.Sunrise: When the very first part of the sun appears above the horizonSunset: When the very last part of the sun is above the horizonTwilight: Period of light before the sun rises and after it setsDaylight: From beginning of morning twilight to end of evening twilightOfficial Day: 15 minutes before sunrise to 15 minutes after sunsetOfficial Night: 15 minutes after sunset to 15 minutes before sunrise10.3 DirectionDirection on the Earth is measured clockwise from True North (0000 – 3600).

North (0000 T), East (0900 T), South (1800 T) and West (2700 T) are known as the Cardinal Points. Quadrantal Points lie between the Cardinal Points -i.e. NE (0450), SE (1350), SW (2250) and NW (3150).

When plotting tracks on aviation maps, we need to determine the magnetic heading used in the aircraft to maintain this desired track. First thing we need to do, is measure the angular difference between the nearest meridian and our track line to determine our true bearing (always measured clockwise from true North). Since all meridians point to true North, we need to adjust this angle for magnetic North. Depending on our position on the Earth, magnetic North could lie either East or West of true North. Fortunately, this is provided for on our chart by means of isogonal lines which indicate the angular difference between magnetic and true North, or Variation. With variation expressed as west by means of a curved broken line on the chart, we can expect magnetic North to be West of true North.

Looking at an example below, we can see with a magnetic North west of true North, we need to add the variation to our true bearing to give us a magnetic bearing from which we can navigate using our compass. To help remember, use the rhyme:Variation West, Magnetic Best (add variation)Variation East, Magnetic Least (subtract variation)10.4 Aircraft Magnetism


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