Posted by Grant Headifen on August 12, 2010 under Bareboat Charter, Crew, Maneuvering Under Power, Skipper | 
Next week we’re going to Tonga and the island of Vava’U for a week long NauticEd Flotilla sailing trip amongst the archipelago. After a rainy and relatively cool winter in New Zealand this year its going to be a welcome and fun trip. We’re bareboat chartering three catamarans from the Moorings. 21 adults and 3 three children aged 2, 3 and 6 are coming. Correction that makes 24 children I think by the excitement and way every one is acting so far. We’re looking forward to doing some excellent sailing, fishing, swimming in warm water, snorkeling under the rock wall into Mariner’s cave and maybe have a few lovely glasses of red wine under a warm evening sky. So in light of catamaran sailing then I thought this week we’d review a method of getting a catamaran off the dock when a difficult wind is blowing onto the dock. We needed to use this in the British Virgin Island last year and with some whacky wave action we also had to time it right. It’s just as well we used this method because, with the waves, some serious damage could have occurred.
Using a spring line to get off the dock with a catamaran
The concept is pretty simple and effective. First tie a dock line from the front of the boat to the dock towards the aft. Then turn the helm all the way towards the dock and engage the out side engine in forward. The thrust from the backward wash of water as depicted by the arrow onto the turned rudder plus the force moments from the outer thrust and inner dockline will act to turn the back end of the catamaran out away from the dock. You must position a crew member with a dock fender to hold it between the boat and the dock. When the boat is turned out a significant amount, you can engage reverse but make sure it is more than 45 degrees out, else you can be in trouble with the wind pushing you back onto the dock. Once in reverse, turn the helm the other direction to get the boat moving in the right direction. Wait until the boat is a significant distance away from the dock before you decide to engage forward and swing the boat around otherwise the back quarter of the boat can broadside back into the dock, especially if the wind is strong.
You can apply a little reverse thrust to the dockside engine but keep it so that the tension remains on the dock line. The method of using the dock line rather than just opposing engines turns the catamaran more effectively when operating close to the dock because the dockside front quarter is essentially trapped thus a simple rotation won’t work.
Make sure that the dock line is arranged so that it is tied to the boat then looped 1/2 turn around the dock cleat then back to the boat. In this manner the crew member managing the fender can, at the right time, release one end of the dock line and pull it back around the dock cleat to retrieve it – all the while standing on the boat as it pulls away from the dock. Make sure the end has no knots in it. Also ensure the crew member understands not to release the dock line too early because they will not be able to hold against the thrust force.
Obviously this concept works similarly for monohulls.
Full concepts of maneuvering sailboats under power and catamarans are covered in these two NauticEd sailing courses. http://www.nauticed.org/courses/view/maneuvering-under-power and http://www.nauticed.org/courses/view/catamaran-sailing-confidence
Posted by Grant Headifen on July 13, 2010 under About NauticEd, Bareboat Charter, Crew, Skipper |
Rolex Regatta St. Thomas
Join us on an 80 ft Maxi Yacht in the Rolex Regatta.
In the movie “Hunt for Red October” the XO came to Sean Connery and said: “Captain, it is time”. It was the time to make the decision to go for it – or not. And it is now one of those classic movie lines you just can’t forget.
Well everyone, that time for you is now!
Join us on Kialoa a 80 ft maxi yacht
NauticEd along with sailing adventure partner, Safe Passage Sailing, are chartering Kialoa V, an 80 ft (25m) Maxi yacht to participate in the Rolex Regatta (the “Crown Jewel of Caribbean Racing”) in St. Thomas in March next year.
On board will be world-class sailing and winning professionals Rich Stearns and Brian Thompson along with NauticEd’s Educational Director, Grant Headifen to lead us through the weeklong event and … hopefully win.
The event consists of 2 training and preparedness days followed by 3 race days out and around the various island of St. Thomas and St. Johns.
Because of the reasonably serious nature of operations on such a large yacht, we will be requiring a certain level of sailing experience to sail on this Maxi yacht so you’ll need to ensure you fill out your NauticEd Sailing logbook under your login account.
See our successful Antigua Sailing Week Video.
We have space for 10 more crewmembers only on this 80 ft yacht so in order to participate you must register your interest with us NOW. Accommodation in local rental Villas is available but these will disappear fast after that the hotels can get quite pricey so contact us now to get moving on this opportunity.
Accomodation can take place in several rental villas that we have identified – BUT … these will go fast so you really should contact us fast.
Send us an email to: info@nauticed.org / subject line: Rolex Regatta Interest
See our brochure on the Rolex Regatta which contains the itinerary, costs, professional hired crew resumes, etc.
Discounted rates for 4 or more so update your facebook page, send out a tweet and bring a few friends!
Back to NauticEd Sailing School
Posted by Grant Headifen on July 8, 2010 under About NauticEd, Bareboat Charter, Skipper, Videos and photos |
I get this message below all the time from people that I know or meet. Here’s one I got this morning through my Linkedin account.
>>>>>>>
Hey Grant,
Long time no see. Grant, I’m thinking about learning to sail. Your sailing vacations all over the world have inspired me. What do I do, where do I start, can I buy you a beer some time and get some advice from you.
Mark.
>>>>>>>>>>
Here’s my reply this morning
Mark,
Would be good to catch up. In the meantime – here’s my advice. Obviously I’m a little biased here but you should really start with one of my online theory classes. I’d recommend the NauticEd Skipper Sailing course at http://www.nauticed.org/course/view/skipper. That will give you a good solid knowledge of what you need to know when starting out on a learn to sail quest.
Skipper Sailing Course
The next thing I would recommend is to spend ¼ million dollars on a boat – nah just kidding. Go join our local yacht club and do some racing. Almost every yacht club is begging for members to be crew on their boats. A note on their pin up board that you want to crew will attract multiple phone calls to you. Also just call their office and ask what you should do. But I guarantee that they will be more than happy to have you out there. Yacht clubs appear old and stodgy on the out side but once you get inside there are dozens of skippers that are keen to help out.
Whether or not you’re into yacht racing, racing is the absolute best way to learn fast through immersion and you can rack up the experience fast. By taking the skipper course you’ll have the theory knowledge to know what you’re doing on the boat. Now you just need to burn it into your brain with the practical sailing skills.
Log all your yacht club time in our free online logbook as it counts towards your sailing certification rank.
Another thing you can do is to go to the local sailing school. In Austin it is the Texas Sailing Academy. They teach a 2 weekend long basic introduction to sailing and will give you hands on training. Just make sure that whatever school you go to that they don’t put too many people on the boat at one time. It waters down your practical experience. Some schools do this to keep the cost down but if you’re there to learn to sail then you’re there to learn to sail not water it down with a cheap course. With Sailing courses you get what you pay for.
The other ways to gain practical sailing experience is to catch up with friends who have a sailboat. Funny enough but sailboat owners are almost desperate to have some one call them and say “would you like to come sailing with me on your boat this weekend”? But people learning to sail are always too embarrassed to ask – so sailboats tend to sit in the slip month after month. So just ask.
If your goal is to take a sailing vacation then I’d also recommend aiming to reach our Bareboat Charter Master Rank. Most worldwide charter companies accept our certification. Here’s a video explaining that.
http://www.nauticed.org/faq_sailing_certification/
Sailing vacations are the way to go. They’re relatively inexpensive and you get to go to some awesome places. As you know, every year we gather our friends and go somewhere. This year we’re chartering three boats with The Moorings South Pacific in Tonga. I was up there a few months back and wow – what an incredible place. By the time we get there next month the place is supposed to be teeming with whales.
Let me know if there is any way I can help out.
Cheers
Grant
Posted by Grant Headifen on July 6, 2010 under Bareboat Charter, Coastal Navigation, Crew, Skipper, Storm Tactics |
As you learn to sail, you should be also learning about anchoring. There is more to tossing the hook so to speak.
After doing some research on the internet and looking at some of the tests performed on holding power, I’ve made a quick summary of what I learned.
Anchor types are selected based on the bottom conditions. These are rock, mud, clay, sand, grass, coral and shoal.
Charts will usually tell you what the bottom conditions are, as will local sailors from whom you should never be afraid to ask.
The following shows the type of anchor and the associated bottom that the anchor is best suited for.
Danforth: Works best in sand and mud
Danforth Anchor
Hinged Plough CQR: Works Best in sand, rock and mud.
Hinged Plough CQR Anchor
Non Hinged Plough Delta Anchor: Works best in sand rock clay and mud.
Delta plough anchor
Non Hinged Plough Roll bar anchor: Best for all types of bottoms – sand, rock, mud,clay, grass
Rollbar plough anchor
Bruce Anchor: Best for sand, rock, mud.
Bruce anchor
The Roll Bar Plough type anchor is a new type of anchor and therefore is not that common yet. However, tests show that it is certainly one of the winners when it comes to selecting an anchor.
Posted by admin on July 3, 2010 under Bareboat Charter, Coastal Navigation, Crew, Skipper, weather |
As a new sailor, just learning to sail, the thought of figuring out tides can be quite intimidating. We know that even some seasoned sailors tend to just wing it – a dangerous concern. This learn to sail series article will dispelled any concerns about understanding, reading and predicting tides.
Gravitational Pull
Tides took a lot of figuring out by some very smart people over the ages including Galileo.
But now that the principle causes of tides are understood and quite well mathematically modeled, they are pretty easy to understand by the average Joe when explained properly.
Tides exist solely because of the celestial bodies the moon and the sun. The moon is relatively close but comparatively small. The sun is far away but a giant when it comes to mass. Gravitational pull increases linearly with mass but decreases inversely with the square of the distance. So when you balance these out and do the calculations, the sun’s effect is 46% that of the moon.
So the moon has the dominant and most noticeable effect on the earth’s tides. However the Sun still has a significant effect.
There are a couple of tricks to understanding the tides that took the physicists quite a while to figure out in the old days. The moon circles the earth about every 24 hours and 50.4 minutes. But for most of us it seems that the tide takes about 6 and a bit hours to go out and 6 and a bit hours to come back in. That’s a frequency of 12 and a half hours not 24:50 hours. What’s up with that?
Tide is actually a gravitational concept rather than specifically related to the movement of our oceans. All celestial objects are susceptible to tidal effects from other “relatively close” bodies. Consequently a planet with in gravitational range of another body will experience pull leading to stresses acting to deform the shape of the planet.
That means that as the moon circles the earth, the earth is deformed by the moon. Similarly, the moon also experiences deformation by the earth and thus is suffers a tide effect. The effect is called tidal force. Fortunately for life on earth, the deformation is small but it does lead to the rising water that we experience. Therefore, with out the moon, life on earth would be vastly different.
As non celestial body and gravitational experts we’ll probably struggle to understand the resultant effect because it happens in a way that we might not initially expect.
Double Bulge Phenomenom
It is suffice for this description of tides to state that the planet doesn’t just bulge towards the distant body but actually bulges on both sides in a line between the center of the two bodies because of the volumetric stress imparted upon the planet. Various arguments still exist on why, some are flat out wrong and some are right. As sailors we really don’t care too much other than knowing the resultant.
To gain a visual appreciation for this, although not in anyway accurate in science, take a calamari ring and hold in two points opposite each other. Now hold one side still and pull the other side. You’ll see the ring bulge on both sides in a line of the direction of pull.
That is a similar resultant action to what the earth is experiencing. The bulge occurs on both sides of the planet diametrically opposite each other and in the plane of a line between the moon and the earth. So following this, we have a high tide on the same side of the planet as the moon and simultaneously on the opposite side. Thus leading to a theoretical tidal period twice for every rotation of the moon about the earth.
The double bulge concept has nothing to do with the spin and inertia of water on the earth, although you will find some arguments and textbooks reporting this as a contributing factor to the opposite bulge. Not so! In any case, again as sailors we don’t necessarily care too much. We just need to know and realize that the double bulge occurs to explain two tides in a day rather than matching the periodicity of one moon rotation per day.
The exact same concept is valid for the sun. A solar high tide exists on the same side of earth as the sun and simultaneously on the opposite side of the sun.
Theoretical Tide Heights
Now let’s look at a few theoretical mathematical numbers for comparison. If the earth’s oceans were uniform in depth and no landmasses existed and just considering the moon and if the moon was rotating around the earth every 24 hours, plus a few other ands and ifs, then the theoretical rise of the water at high tide would be 54 cm (21 inches). Now consider the suns effect in the same way. This would lead to a theoretical tide rise of 25 cm (9.8 inches). If the moon and the sun aligned or were directly opposite (from the bulge theory above) then we could add these heights together and get 79 cm (31 inches). If the moon and sun were acting against each other by being 90 degrees apart, then we would subtract the numbers and be left with a tidal height of 29 cm (11 inches).
The phenomenon then of a spring tide has thus been explained. Spring tide is when the sun and moon align or are diametrically opposite. The word spring does not come from a relationship to the season but from the concept of “force”. Meaning there is more force during this period of alignment, which occurs about every 14 days – full moon and new moon.
Consequently, a neap tide is the minimal tide effect from the action of the sun and moon opposing each other. When they are at 90 degrees from each other – not diametrically opposite each other due to the double bulge effect. Again, this occurs at a period of every 14 days.
In addition to the above, the sun and moon operate in elliptical orbits relative to the earth. You can then imagine as the sun and moon become at their closest points to the earth that a greater effect would take place. The effect is increased 18% for the moon and 5% for the sun. Since the earth rotates about the sun once per year, at a certain times of the year then you would expect all these phenomena to exist simultaneously and create a theoretical tidal height of 93 cm (37 inches).
You can also imagine a common high high tide condition existing when the moon is closest to the earth with the moon and sun aligned (or diametrically opposite). This is called a perigee spring tide and occurs every 7.5 moon cycles.
This can be further expanded to include the sun being at its closest point along with the moon and in a spring tide situation. This occurs every 18.6 years. For this reason tidal high high and low low measurements are recorded and reported over periods of 19 years by statistical governmental recording agencies.
There is one last effect to discuss and that is that the sun and moons orbits are not directly aligned with the pole of the earth. Both the sun and moon’s orbits are not in unison and change day by day. For this reason the height of each high tide will vary day by day.
And just in case you’re wondering, Venus provides the next greatest tidal effect on the earth. But it is less than 0.001% of the magnitude of the Sun’s effect.
We’ve added a rudimentary animation of the Moon’s and the Sun’s tidal forces on the Earth at http://www.youtube.com/watch?v=XZNnb9YP1xg. The animation shows the Moon’s larger tidal force in blue and the Sun’s smaller tidal force in yellow turning relative to the Earth with different frequencies. You’ll need to view it several times through to see that when the bodies are aligned either on the same side or diametrically opposite, that the tidal forces align creating a spring tide. You’ll see Neap tide occur when they are 90 degrees apart. Of course in reality, the earth rotates about the sun but for relativistic purposes of an observer standing on the Earth, this demonstrates the effect. Additionally we did not simulate the 7.5 lunar periods before the cycle repeats nor did we show differing declination of the orbits or the elliptical shape of the orbits … and a few other things.
How the Tides Work
In Reality
So now let’s take out some of the theoretical arguments and start adding back in landmasses and differing ocean depths. The effect is called Bathymetry. These affects greatly affect the timing, tidal heights and periodic frequency of the tides at different places on the earth. Regardless of this, the tides still occur with periodic consistency in each location according to the above discussion of the moon and sun movements. This last sentence, matched with empirical data over time, means that tidal predictions are very accurate, both height wise and time wise.
Lets say that again; Tides heights and times are highly predictable!
Most places on the planet experience two high tides every 24 hours and 50 minutes as discussed above. This is called a semidiurnal tide. However due to bathymetry, some places experience one high tide every 24 hours and 50 minutes. This is called a diurnal tide and is experienced in the South China Sea, the Gulf of Mexico along with a few other places. Another significant departure from the theory is the experiencing of two differing height of tides. This is called a mixed tide and is experienced in quite a few places including the west coast of the United States.
Keep in mind that 100% of the reason for departure from a semidiurnal tide in these locations is solely due to Bathymetry. Bathymetry is also the reason for departure from the high tide being at exactly the same time as the moon at its highest apex in the sky overhead (or diametrically opposite the planet). As an example, in Norfolk Virginia USA, high tide is approximately 2 ½ hours before the moon passes overhead. Typically on the planet, a spring tide occurs 2 days after a full or new moon.
Bathymetry also explains why tidal height in some places is far greater than the theoretical predictions above. As water moves and slushes around the planet it does so with lunar (and semi lunar) frequency setting up a crowding effect of the water in certain places.
Regarding all the above discussion about high tides, for every high tide there is a corresponding low tide. As sailors, we’re pretty concerned about low tides and low low tides due to grounding issues. For mixed semidiurnal and semidiurnal tides, low tides occur every 12 hours and 25.2 minutes. Low low tides occur at spring tide every 14 days about 2 days after a full moon or new moon. And lowest low tides occur every 7.5 lunar cycles when there is a perigee spring tide situation.
The Tidal Map
Putting it all together, and considering the periodic consistency, bathymetry and real empirical data, NASA has developed a tidal map of the planet. The map is quite revelational and will help you understand tides even further.
Tidal Map of the Earth
Grey parts are landmasses. The colors on the map represent the amplitude (height) of the tide. Note the locations marked in red. These are well known really-really high tide areas. Some in excess of 40 feet (11m). Also if you’ve ever sailed in the Caribbean or Mediterranean, you’ll have noticed a distinct lack of any tide. These are marked in Blue.
Of particular interest for me is the west coast of my home country, New Zealand. Near Auckland, two estuaries, one from the west coast and one from the east coast are separated by about 500 meters of land only. Yet the tidal difference is hours apart and the two tide heights are vastly different. Similarly take a look at the area around Panama. Extreme high tides exist on the west coast and almost none on the east coast. The UK also has some very interesting tidal results particularly in the Solent area.
The highest tides in the world can be found in Canada at the Bay of Fundy, which separates New Brunswick from Nova Scotia. At some times of the year the difference between high and low tide in this Bay is 16.3 meters (53.5 feet), taller than a three-story building. Anchorage, Alaska, comes in at a close second with tidal ranges up to 12.2 meters (40 feet).
The white lines on the NASA map above represent one hour difference in time for a high (or low) tide. Note how the lines appear to be randomly placed around the planet with out any particular reason for their placement. Again this is due to bathymetry. Of note however is that over time, the lines are don’t move. For example the blue region in the middle of the south pacific where the white lines converge always experiences little to no tide. The high tide travels around this point in a clockwise direction. The amphidromic point where the lines meet defines the meeting point of high and low tide giving rise to a consistent zero tide effect. In fact, at most amphidromic points as such in the southern hemisphere, the tide turns clockwise due to the coriolis effect of the earth spinning. In the northern hemisphere at most amphidromic points the tide turns anticlockwise (counterclockwise).
What does this really mean? It means that if you consider the amphidromic point near Hawaii and the radical lines from it incident on the west coast of the USA, then the high tide must move north along the coast over time. IE the high tide in Los Angeles will be after the high tide in San Diego (San Diego being south of Los Angeles). Of significant value when understanding this is that if you can read a table showing the high tide in one place you can predict the time of the high tide in another location. Look at the southern part of the south east coast of South America. The high tide occurs all along that region at almost the same time but over approximately the same distance along the east coast of New Zealand, that experiences 5 hours of high tide time difference. Interesting!
It is doubtful that even the most complex mathematical models could predict all this. However combining the empirical data with the periodic frequency of the two celestial bodies gives us every thing we need.
Practical Application of Reading And Understanding Tides
Whether we’re experienced sailors or just starting out in our learn to sail quest, chances are you’ll be sailing in an area where tides are happening.
One of the greatest reasons you need to understand and deal with tide heights is when you are anchoring. Anchor at high tide and you might find your self stuck tipped sideways on the ocean floor a few hours later. Anchor at low tide and with a lee shore and you might be blown onto the rocks when your anchor scope becomes less than sufficient to allow the anchor to hold.
Tides are also significant when dealing with bridges. Cleverly, charts list bridge heights as height above high tide not low tide.
There is some language around the practical application of tides that we now need to learn.
- Ebb tide: Water going down towards low tide
- Flood Tide: Water coming up towards high tide
- Slack Water: Times when the water movement due to tidal effects are minimal. Note that because of the time it takes for bays and estuaries to drain out, slack water is not necessarily at high tide and low tide. Consult current tables to learn slack water times.
- MHHW: Mean higher high water level. Average height of high tides at spring high tide
- MLLW: Mean Lower low water level. Average height of low tides at spring low tide
- Chart Datum: Reports of water depth on charts are taken at MLLW
- Bridge Heights: Reported on charts as the height above MHHW
- Tide Current: Flow of water due to tides
Below is a tidal prediction chart for a buoy position in La Jolla, San Diego, California. Note a few things: (1) The prediction is extremely close to the observed. (2) That it occurs twice per day – Semi diurnal (3) The heights are different with in the same day – Mixed Semidiurnal. (4) The low tide drops below the MLLW.
Tide Data in San Diego
Rather than carry around masses of graphs as above, convenient tide tables have been produced by the maritime agency in almost every country that borders an ocean. Visit you local chandlery and they’re bound to have a copy of the local tide table. Or search on the Internet. In the USA go to http://tidesandcurrents.noaa.gov/tidesXX – where XX represents the last two digits of the year you want to explore. Tide table are abundantly available to us.
So whenever we want to know the time and height of the tide we can just consult the tide tables. And from the above, we now know and are very confident that, they will give us a very accurate prediction. Tables are arranged to give us tidal heights and times at most well known ports called Reference Stations. Time and height adjustments are then provided to get predictions for lesser known ports that are called Subordinate Stations.
To predict your tidal information from written tables find the closest Reference Station, then make the time and height adjustment from that Reference Station to your closest Subordinate Station. Because of the power of computing, on the Internet, many Subordinate Station calculations are already done for you. In this case you can just look up the tide heights and times directly at your location. Most of us don’t carry Internet connected laptops on our boats so the ability to read and understand the table is paramount.
For example, from a table you might read the time and height of the low tide on the afternoon of January 15th 2010 in Los Angeles. But if you are further north in El Segundo in Santa Monica Bay, the tide will be slightly different. From the NASA developed tide map above you at least know that high tide will occur later because of the anticlockwise turn of the amphridomic point near Hawaii, but by how much time and by how much amplitude? Thus we consult an adjustment table.
Below is a typical tide table for Los Angeles. Click the image to go to this page on the tidesandcurrnet.nooa.gov website.
Tide in Los Angeles
You can read (probably with glasses) that the afternoon low tide occurs in Los Angeles port at 3:46pm and is 0.7 feet below the MLLW chart datum.
Correction tables will show that for the Subordinate Station of El Segundo, the correction from the Reference Station of Los Angeles will be to add 13 minutes for low tides and to add 13 minutes for high tides. And to multiply the low tide reported in Los Angels by 0.96 and the high tide by 0.96.
Correction of Tide for El Segundo
Thus the afternoon low tide in El Segundo will be at 3:59pm and will be 0.67 feet below MLLW.
The below table confirms that result. Click the image to go to this page on the tidesandcurrnet.nooa.gov website.
So there you have it. You completely understand tides and can now use the table to predict tide times and heights.
Of considerable further interest is the currents produced from tides. These must also be understood, especially as sailors, because in many cases your sailboat can not sail as fast as the tidal current. San Francisco Bay is a good example of this. Module 1 of the NauticEd Skipper Course (http://www.nauticed.org/courses/view/skipper) discusses Tidal Currents and their prediction.
This article was written by Grant Headifen, Educational Director of NauticEd. NauticEd is an online sailing school providing sailing courses and sailing certifications for beginner to advanced sailors.
For more info see http://www.nauticed.org
Posted by Grant Headifen on June 29, 2010 under Bareboat Charter, Crew, Sail Trim, Skipper |
I once sailed with an ex-submarine captain who would turn the boat through a tack extremely slowly. When asked why, he had several good reasons.
(1) Look behind you as you come about. If you are leaving swirling water eddies behind the rudder, these are a sum of kinetic energy that was previously in your sailboat but has now been released to the water. What does that mean? If you jam the tiller over during a tack you will loose momentum – slowing down your sailboat more than you need to. If you execute an easy steady turn leaving the kinetic energy in the boat, you’ll maintain kinetic energy in the boat.. Thus when you come out on the other side your boat still has speed. Still not convinced? You’ll remember from docking that the boat carries a lot of momentum. Put the throttle in neutral and the speed bleeds off very slowly. Ever been skiing? Execute a few cutting turns and you’ll see how fast your speed drops. Same concepts when tacking.
(2) A slower turn also allows your crew a few extra seconds to get the jib sheet in tight before the real heel and tension comes on. This is really important because once you’re heeling over on the new tack it is more difficult and slower for the crew to tension up the jib sheet to it’s appropriate trim. It’s pretty frustrating as helms person when you’re perfectly on the new tack and you’re watching the crew floundering around cranking slowly on the winch and the jib is still only half in. You’re probably yelling “get it in get it in” and watching others pull past. What I’m doing here is putting a little responsibility back on you. With a slower turn, the crew can get the jib sheet almost all the way in by hand before the tension comes on.
(3) The swirling water eddies left a signature in the water that could be picked up by submarine hunting satellites. Not that this is relevant to sailing really but it was just his well formed habit.
The point is – when you’re the helms person, maintaining speed through the tacking maneuver is a balance between your boat’s momentum profile and your crew’s efficiency in getting that sheet in. It’s not about jamming the wheel over to the other side as fast as possible.
Just goes to show you that slow is faster. Ask the tortoise!
Posted by admin on June 22, 2010 under Bareboat Charter, Coastal Navigation, Crew, Sail Trim, Skipper |
Leeway is just one of those things that is a law of the universe that we have to put up with. It’s just like gravity. Still with gravity – the advantage is that it’s highly predictable. And so then is leeway.
Leeway is the sideways slip motion of our sailboat down wind from the pressure of wind against our boat and sails. It results in a course that is less than desirable.
Leeway Slips Your Boat Side Ways Down Wind
Airplanes suffer from the same issue. When flying in a cross wind, the plane crabs (slide slips) downwind. The course becomes different from the heading.
Not accounting for leeway will have you sailing (or flying) in a fairly unnoticeable arc to get to the mark. To represent an example with a mark to the north and a westerly crosswind, here’s what happens; you aim for the mark at 000, your boat slips sideways to the west. Now your mark is at 359 but you don’t really notice it. After a few minutes your mark is at 358 still in noticed. Minutes later your heading is 355 then 350 etc. All because you keep aiming at the mark but you’re being pushed to the east by the wind. Your course over ground becomes an arc and is the long way around.
The prudent sailor will account for the leeway and sail a constant heading depending on their known leeway of say 350 for the example above. The sideways slip motion will deliver them to the mark in a straight and shortest line.
Now that we’re in the electronic age, navigators will plug in the destination to the gps. The autopilot which is cross talking to the gps takes care of the rest. The gps analyses the cross track (the boat’s distance away from a straight line to the mark) and feeds back to the autopilot the proper heading to minimize this in real time. Thus resulting in a straight course to the mark.
I’m doubt that during the Wednesday/Friday night beer can race such electronic methods are utilized. So I’m suggesting that to take line honors and win the bottle of rum at your club race by taking account of leeway.
Leeway is particularly more prevalent when you are sailing on a close haul or close reach and can be as much as 20 degrees depending on the wind conditions, water conditions, your sailboat design, your apparent angle with the wind and how your sails are set.
However, other than buying a new boat, the only thing that you have control over is the trim of your boat and sails.
Here’s a couple of general rules to follow:
- Over sheeted sails cause more sideways force and thus sideways slip (leeway). Fly the telltales diligently.
- Aim for a position to windward of the mark you’re trying to go around. The more you are sailing on an upwind course, the more the degrees upwind you should aim.
- The higher the wind speed, the higher above the mark you should aim.
- In general, on a close haul, allow 10-15 degrees. Adjust this less if the wind is light, more if the wind is strong. Reduce this amount linearly as you bare away from the wind.
When doing serious navigation we absolutely must account for leeway and an excellent understanding of how your boat performs leeway wise is essential and how to solve for it once you know it. NauticEd developed an educational navigation video solving a leeway and current exercise at http://www.youtube.com/watch?v=1LQcFOGSJQs
Using a gps and a nice steady windy day, you can do a simple determination of your sailboat’s typical leeway.
(1) Begin sailing on an angle slightly off a close haul direction and with a recognizable land marker dead ahead.
(2) Measure your speed
(3) Douse the sails and begin motoring at the same speed in exactly the same direction.
(4) Take note of your gps course.
(5) Deploy the sails and turn off the engine.
(6) Continue to aim for the same point on land.
(7) Now read out your gps course.
(8) The difference in course angles will be your leeway
(9) Repeat for different points of sail
(10) Repeat for the opposite tack.
(11) Repeat on different days with different wind strengths
Note that:
(a) this method is relatively immune from current because you have normalized it out by performing the motoring task.
(b) this method will not account for the leeway due to the hull of your boat presented to the wind.
We hope you enjoy your bottle of Rum!
Posted by Grant Headifen on June 3, 2010 under Bareboat Charter, Skipper |
Here is a question posted by one of our students today with our response following.
On 6/4/10 1:54 PM, “Ted” wrote:
I have recently started through your courses in the hope of chartering next winter. My own boat is a 25′ Catalina. From your information it appears that I will not receive credit for my days on water due to my boat being under 28′. Is that correct and therefore will I not be able to progress beyond crew level 0?
Thank you for your time
Ted
>>>>>>>
Ted
Some of your small sailboat experience is counted. However, the sailing certification and experience that the yacht charter companies are requiring is that their customers have some experience on larger sailboats before they responsibly release a sailboat to anyone on a chartered sailing vacation. As you can imagine, sailing experience is a major factor for them in lending out their charter sailboats. When we consulted with the major yacht charter companies in the world to put this program together they were adamant and rightly so that a proper and valuable sailing certification would include some big boat time.
My advice would be to buddy up with some one the local yacht club who has a larger boat to gain the experience you’ll need.
You will be able to advance to Skipper as soon as you log 5 days more on a sailboat 28ft or longer whilst you are acting as master of the vessel.
I hope that answers your question.
Sincerely
Grant Headifen
Educational Director
Posted by Grant Headifen on May 17, 2010 under About NauticEd, Bareboat Charter, Skipper |
This is the final day of your introduction to NauticEd
Today we’re discussing chartering a yacht on a sailing vacation and the NauticEd Post Graduation Sailing Trip.
After having lead dozens of sailing trips all over the world including Greece, Croatia, The British Virgin Islands, Grenada, St. Martin, Guadeloupe Island, Mexico, New Zealand, Belize, and Corsica and other exotic locations, I’ve come to realize that there is nothing more fun than a sailing trip.
We encourage you to gain the education and experience to take one of these vacations. They are relatively inexpensive in the order of $500 per week (excluding airfair) per person. And, if you dine on board, the price includes your entertainment, accommodation and food costs.
We’ve taken babies and kids, small groups and large groups. Every time captains and crew have had the time of their lives.
If you start out in a easy location like the British Virgin Islands, the sailing is mild and the navigation is by sight. Or if you want slightly more of a challenge, Greece is amazing.
Our Sailing Vacation Route in the BVI's
There are literally hundreds of charter companies through out the world. Your knowledge and experience is the main key to being accepted by these charter companies as a customer. After working closely with many of the larger companies, we developed the Rank of Bareboat Charter Master Level III as the base standard for being accepted.
By now you will have learned that with the rank of Bareboat Charter Master a student will have completed the following courses:
- Skipper Course
- Maneuvering Under Power Clinic
- Bareboat Charter Clinic
- Coastal Navigation Clinic
and would have logged a minimum of 50 days of on-the-water experience.
If you’re considering taking a sailing vacation then we strongly urge you to achieve this Certification. And if you’re chartering a catamaran, take the Catamaran Sailing Confidence course and play the associated Catamaran Maneuvering Game.
To celebrate your successful achievement to Bareboat Charter Master Level III, NauticEd leads a Post Graduation Sailing Trip each year to either the Caribbean, the Mediterranean or the Pacific.
Once you achieve this Rank and Level you will receive a personal invitation to join us on this trip.
You will captain your own boat with your friends and family. We will act as flotilla admiral and lead the fleet and provide assistance should you need it. At the conclusion of the trip we’ll add the Verified Proficiency Mark to your sailing certification.
If you’re slightly timid about taking a sailing vacation after you graduate or want to join a fun group flotilla, this is the trip for you. Follow us on twitter to keep up to date on this trip and watch our newsletters.
This concludes your introduction to NauticEd.We truly hope that NauticEd can serve your sailing education desires and that we help you enjoy our wonderful gift of the oceans.
Sincerely,
Grant Headifen
Educational Director
NauticEd
Posted by Grant Headifen on May 16, 2010 under About NauticEd, Bareboat Charter, Skipper |
This is day 5 of 6 in your introduction to NauticEd
Today we’re discussing practical sailing schools and how you can get a verified proficiency stamp added to your sailing certificate.
The NauticEd Sailing Certificate with Practical Sailing Verification
The Verified Proficiency Mark is an acknowledgement that the student has had on the water training and check-out by an accredited NauticEd Professional Affiliated Sailing School.
Although NauticEd recommends that all students gain practical instruction through an accredited Sailing School, it also recognizes that in many cases sailors feel they are already proficient in boat handling skills and choose not to go to a practical school. In this case then, Students still gain the sailing certification rank and level, however the Verified Proficiency Mark is left off their logbook resume.
The Verified Proficiency Mark is attained after the professional Instructor tests out the student on the water using the NauticEd Practical Proficiency Check list which is available at http://www.nauticed.org/images/certification/proficiency/skipper.pdf
The Instructor then simply logs into NauticEd, securely locates the student’s profile online and verifies the profile for sailing proficiency with one click. The NauticEd software then automatically and instantly marks the student’s certification with the Verified Proficiency Mark. The Verified Proficiency Mark adds significant value to the student’s certification because it adds further proof of the Student’s sailing abilities.
Our list of professional schools is growing. If you don’t see your favorite school listed on our site at http://www.nauticed.org/school then let them know about NauticEd.
Visit one of our schools to gain a Verified Proficiency Mark for your sailing certification.
Tomorrow is our last day of NauticEd introduction. We will discuss chartering a yacht on a sailing vacation and the NauticEd Post Graduation Sailing Trip.
Login Page: http://www.nauticed.org/myNauticEd
Until then – fair winds
Grant Headifen
Educational Director
NauticEd
