Differences
This shows you the differences between two versions of the page.
| Both sides previous revision Previous revision Next revision | Previous revision | ||
| navi:navigation [2026/03/16 19:32] – Simon Grant | navi:navigation [2026/03/26 18:33] (current) – external edit 127.0.0.1 | ||
|---|---|---|---|
| Line 1: | Line 1: | ||
| - | # Navigation | + | This topic is part of [[gt: |
| + | ====== | ||
| Line 10: | Line 11: | ||
| - | ## What is navigation? | + | ===== What is navigation? |
| Navigation is the art and science of getting from A to B. People have been navigating since time immemorial, driven by the need to find food and shelter, and later to trade and explore. Before the advent of accurate instruments, | Navigation is the art and science of getting from A to B. People have been navigating since time immemorial, driven by the need to find food and shelter, and later to trade and explore. Before the advent of accurate instruments, | ||
| Line 28: | Line 29: | ||
| </ | </ | ||
| </ | </ | ||
| - | ### Map and compass | + | |
| + | ==== Map and compass | ||
| A [map](http:// | A [map](http:// | ||
| Line 52: | Line 54: | ||
| </ | </ | ||
| - | </WRAP | + | </ |
| - | > | + | |
| - | ### Celestial navigation | + | |
| + | ==== Celestial navigation | ||
| Celestial navigation works by taking a ' | Celestial navigation works by taking a ' | ||
| Line 75: | Line 78: | ||
| </ | </ | ||
| - | ### Natural navigation | + | ==== Natural navigation |
| Natural navigation is 'the rare art of finding your way using nature', | Natural navigation is 'the rare art of finding your way using nature', | ||
| - | ### A bit of history | + | ==== A bit of history |
| Sailors have been extrapolating their position by observing the stars for thousands of years. The principles date back to the ancient Greeks who were the first to measure the radius of the earth and who developed spherical trigonometry. Over the centuries, ever more accurate instruments were invented to measure the angle of celestial bodies above the horizon (equal to degrees of latitude). The sextant was the most accurate, and is still used today, in the age of GPS. | Sailors have been extrapolating their position by observing the stars for thousands of years. The principles date back to the ancient Greeks who were the first to measure the radius of the earth and who developed spherical trigonometry. Over the centuries, ever more accurate instruments were invented to measure the angle of celestial bodies above the horizon (equal to degrees of latitude). The sextant was the most accurate, and is still used today, in the age of GPS. | ||
| Line 106: | Line 109: | ||
| - | ## What are the benefits of navigation? | + | ===== What are the benefits of navigation? |
| These days the world has been comprehensively mapped by GPS but this is still not 100% reliable and you’re at the mercy of battery power and intermittent signals, especially in remote areas. Good navigation skills on the other hand can literally mean the difference between life and death in certain situations. If you know how to use them, maps and compasses are 100% reliable, particularly useful in reduced visibility (i.e. at the top of a mountain in rapidly descending fog). | These days the world has been comprehensively mapped by GPS but this is still not 100% reliable and you’re at the mercy of battery power and intermittent signals, especially in remote areas. Good navigation skills on the other hand can literally mean the difference between life and death in certain situations. If you know how to use them, maps and compasses are 100% reliable, particularly useful in reduced visibility (i.e. at the top of a mountain in rapidly descending fog). | ||
| Line 131: | Line 134: | ||
| - | ## What can I do? | + | ===== What can I do? ===== |
| - | ### Map and compass | + | ==== Map and compass |
| Assuming you know where you are on the map, place your compass on the map so that the long edge forms a line running between where you are and where you want to go (you could extend this for large distances using a pencil and straight edge). Next, turn the housing on the edge of the compass until the grid lines are aligned with those on the map, making sure that the orienting arrow on the compass is pointing to north on the map. Turn the housing to make the correction for magnetic variation associated with your map (declination). Stand up, holding the compass close to your body (and away from your phone which will interfere with the reading) and turn around until the compass needle sits within the grid north arrow on the baseplate. Look at the direction of travel arrow and off you go. At this point it helps if you can sight a prominent landmark to walk towards, repeating the process when you get there. Identifying landmarks on the map and sighting them as you move through the terrain lets you know you’re still on the right path. It’s also easier and more enjoyable than walking along with your eyes on your compass the whole time. | Assuming you know where you are on the map, place your compass on the map so that the long edge forms a line running between where you are and where you want to go (you could extend this for large distances using a pencil and straight edge). Next, turn the housing on the edge of the compass until the grid lines are aligned with those on the map, making sure that the orienting arrow on the compass is pointing to north on the map. Turn the housing to make the correction for magnetic variation associated with your map (declination). Stand up, holding the compass close to your body (and away from your phone which will interfere with the reading) and turn around until the compass needle sits within the grid north arrow on the baseplate. Look at the direction of travel arrow and off you go. At this point it helps if you can sight a prominent landmark to walk towards, repeating the process when you get there. Identifying landmarks on the map and sighting them as you move through the terrain lets you know you’re still on the right path. It’s also easier and more enjoyable than walking along with your eyes on your compass the whole time. | ||
| Line 166: | Line 169: | ||
| </ | </ | ||
| </ | </ | ||
| - | ### Celestial navigation | + | ==== Celestial navigation |
| Sight a well-known star with your sextant and record the angle above the horizon. As an example, let’s say you see a bright star (say _Sirius_, or _Vega_) at 60° above the horizon. Check the star’s GP in the almanac, perform the sight reduction calculations and, on a globe or map, mark the GP with an X. Then take a pair of dividers, set them to 30° and draw a circle with X at the centre. Since one degree of latitude = 60 nautical miles the circle will have a radius of 30 nautical miles and you will be somewhere along that line. Repeat for another star. The second circle will bisect the first at just two points and you will be at one of those points. Since these are thousands of miles apart, you can probably rule out one of them just by knowing which hemisphere you're in. However, for real accuracy you can sight a third star to get your exact position. Obviously, the world is turning all the time and each star’s GP is changing every second so this needs to be taken into account as you plot your position. | Sight a well-known star with your sextant and record the angle above the horizon. As an example, let’s say you see a bright star (say _Sirius_, or _Vega_) at 60° above the horizon. Check the star’s GP in the almanac, perform the sight reduction calculations and, on a globe or map, mark the GP with an X. Then take a pair of dividers, set them to 30° and draw a circle with X at the centre. Since one degree of latitude = 60 nautical miles the circle will have a radius of 30 nautical miles and you will be somewhere along that line. Repeat for another star. The second circle will bisect the first at just two points and you will be at one of those points. Since these are thousands of miles apart, you can probably rule out one of them just by knowing which hemisphere you're in. However, for real accuracy you can sight a third star to get your exact position. Obviously, the world is turning all the time and each star’s GP is changing every second so this needs to be taken into account as you plot your position. | ||
| Line 185: | Line 188: | ||
| </ | </ | ||
| - | ### Natural navigation | + | ==== Natural navigation |
| There are several means of navigating naturally, but [by the stars](http:// | There are several means of navigating naturally, but [by the stars](http:// | ||
| Line 229: | Line 232: | ||
| Natural navigation isn’t about doing without technology; it’s about trying to see if you can work it out from nature first. It’s rarely impossible but bear in mind you are at the mercy of changing weather conditions and environment so take all the usual precautions and kit when heading out into nature. Finally, natural navigation is most fun when you can roam freely, following where nature leads you. However, if you aren’t on open access land, make sure you respect private property, livestock and stick to rights of way. | Natural navigation isn’t about doing without technology; it’s about trying to see if you can work it out from nature first. It’s rarely impossible but bear in mind you are at the mercy of changing weather conditions and environment so take all the usual precautions and kit when heading out into nature. Finally, natural navigation is most fun when you can roam freely, following where nature leads you. However, if you aren’t on open access land, make sure you respect private property, livestock and stick to rights of way. | ||
| - | ## Further resources | + | ===== Forum ===== |
| + | |||
| + | This topic belongs to the section [[gt: | ||
| + | |||
| + | It is also in the section [[gt: | ||
| + | |||
| + | ===== Further resources | ||
| - [Using nature for navigation](https:// | - [Using nature for navigation](https:// | ||
| Line 241: | Line 250: | ||
| - | ## Related topics | + | ===== Related topics |
| - [[cano: | - [[cano: | ||
| Line 250: | Line 259: | ||
| - [[trac: | - [[trac: | ||
| - | ## Specialist curators of this topic | + | ===== Specialist curators of this topic ===== |