I'm a big fan of multi-hulls, having crewed on and nearly bought a 28' Corsair instead of a Mac, and I'm going down to Cabo with my brother-in-law to look at a Gemini 3000 with him. Certainly they're more comfortably livable in fair weather than a multihull, and they're safe passage makers in good weather.J-- wrote:The Gemini's and Lagoon's have been all over the globe, and those guys will tell you that they are more comfortable than a similar sized monohull and are safer because even when flipped they float and are designed to be liveable when inverted. Also, they will tell you they're safer because they aren't hauling 10,000 lbs. of lead trying to pull them straight to the bottom.
mastreb wrote: MacGregor's innovation of seawater ballast is the best possible compromise, but the boat still doesn't point as well as a full keel boat by any means.
I mean it won't point or track as well. Despite having fin keels and medium aspect rigs, MacGregors do not point nearly as well as the same rig would point with a full keel. I've measured my pointing in the MacGregor and know what my similarly rigged Columbia Sabre could do, and there's no real comparison.You mean it won't track as well, right? Pointing ability usually comes from high aspect rigs and long deep pointy boards/keels. Full keel or 3/4 keels will track well in a straight line, but won't get you to the windward mark in as few a tacks.
mastreb wrote:The retractable boards also contribute to this problem. The keel is limited in size, length, and weight in order to accommodate trailerability, which limits its ability to balance sail power and thus limits the amount of sail you can loft. You cannot put a lead bulb in the bottom of the daggerboard because it would cause roll instability when powering.
mastreb wrote:Trailerability limits a boat to a practical maximum of about 32 feet. That's a bit too short for two complete cabins, but you could probably pack eight people into it. It would be tight.
I've seen that containerable boat. I like the idea. Yacht designers build to relatively specific beam-to-length ratios to achieve various goals, with wider beams being generally more sea-kindly and narrower beams being generally more seaworthy. Being far outside those ratios creates new problems, and being exceptionally narrow for a given length, like that containerable boat, creates a boat that is fast but tender and which heels extremely. It's not unsafe, but it's not very comfortable for the crew, which is why most boats these days are exceptionally beamy: They're trading speed for comfort.The only constraint to trailerability is beam, not length. Beam is limited to 8'6" in order to be legally towed on federal highways, and it's less than they in some states. This thing is trailerable, keeping in mind you're gonna need a pretty hefty tow vehicle, like a dually, but it's trailerable:
http://www.containeryachts.com/
And again, it's not the length or weight that sets the limits on pulling it, it's the beam.
mastreb wrote: safely off-shore capable
This is not really possible for an ultra-lightweight displacement boat. You need a relatively heavy boat to be seaworthy, as lighter boats have movement characteristic that are exhausting in heavy weather even when they aren't unsafe. Size is also a practical matter: The bigger a boat is, the bigger the seas it can survive. The smaller you are, the more likely it is that a storm can overwhelm a boat. The biggest problem is that the smaller foils below the waterline cannot compete with a full keel in terms of seaworthiness. They don't track straight with a light helm and they remain tender, being tossed about by seas that a full keel boat could ignore. Finally, the flatter stern required for powering increases tenderness and the tendency to broaching in following seas.
Again, these seaworthiness characteristics require a full keel, a deep draft, and a heavy displacement. You won't match them with the compromises required for trailering and powering.
I'm specifically talking about trailerable boats, which don't include the Volvo 65 or the MacGregor 65's or 70s. The MacGregor 26 is not an ocean cruiser and isn't intended to be.So, I think Roger M., Steve Dashew and the Volvo 65 along with myself totally disagree with this. The counter to this is that speed is safety. Getting out of the way of a storm is much safer than trying to weather through it. And no boat can ignore heavy weather, as should no crew. A planing hull like the Volvo Ocean 65 with water ballast and multiple water tight bulkheads is infinitely safer offshore due to it's positive bouyancy and it's ability to close off a damaged section of hull and to hustle away from weather rather than trying to slog through it.
[/quote]mastreb wrote:Gaff rigs don't point as well as a bermudan rig, BUT ultralight boats don't point anyway, so you'd do just as well with a gaff on these boats as a bermudan. Furthermore, gaff rigs perform better on all other points of sail, which are the points that these boats sail on. This is a "no downside" design that I'm very interested in.
A very high-aspect ratio bermudan with a fin keel will outpoint anything, but that doesn't mean it's ultra-light. Ultralights skim across the top of the water like a plate with very little wetted surface. That reduction in wetted surface also reduces the ability to resist rotation when pointing. The simple fact is that MacGregors, an ultralight displacement boat, do not point particularly well and if you've got the huevos to sail one without ballast, they point even worse. Check out CA Marchaj's book "Sail Power" and read the chapter on ultralight pointing performance from tested examples. It's quite persuasive.Again, this isn't correct. First, a fin keel with a long thin rudder will out point a boat with a full keel. Think about it this way, two 24 ft. sailboats, a Moore 24 and a Pacific Seacraft Dana 24. Who will get to the windward mark first? The Moore, hands down. The Dana is going to maintain more forward momentum in a chop because of the increased displacement, but will not be able to point as high into the wind. Gaff rigs are also less efficient and generate less power due to the shape of the sail and the fact that the spars interrupt airflow over the sail surface. Gaffs were used back when sail cloth was much heavier and more leverage was needed to control and lift the sails. Lightweight sail cloth has made them a thing of the past.
Hey I'd love to have a boat with zero compromises too! Sign me up! A boat of this size however would require a commercial rig to pull it, which puts it outside the realm of my desires. Some very cool ideas, however!What I'd like to see Tattoo build wouldn't really be trailerable, but a 42+ foot boat, with a plumb bow and a wide flat aft, with dual retractable rudders and canted daggerboards, not lee boards though. I'd want water ballast and positive flotation, and for it to be beachable. I would also love to have a kick up out board underneath the table in the cockpit, so no unsightly motor is hanging off the transom. I'm really bad at estimating, but I would think a 110hp would be able to drive a boat like that at 20 knots with the ballast drained. The idea being, like you said, to dump ballast and run if things got hairy. I'd also like intergrated pads for a large radar arch, as a big mount for davits and bimini and solar panels.
I was really supposed to be working today, but this is much more interesting.
I'm ready.....flame away!
So, those are two pretty specific examples, and I'll address both. So, your Sabre (pretty boats BTW) is not really a fully keel boat in the traditional sense. It's built sort of like one of the J-yachts, which had a cutaway fore foot, and the rudder was integral to the keel. This wasn't a particularly deep drafted boat either, drawing about 4 1/2 feet. These boats were also built to some odd rules that penalized waterline lengths, which is why boats of the era had such lengthy overhangs. So, not really what I'm talking about when I'm talking about a modern hull with a high aspect rig meant for racing to the windward mark. Think like a First20 or a J/22, and I am limiting to trailerable boats. Either of those two will be able to point higher into the wind than the Sabre with a similar water line length, and that has to do with first, a deep draft for the length, in this case, about 4' for the J/22, and it's 10 feet shorter than the Saber! The closest J in length to the Sabre is the 97 and it draws 6 1/2 feet of water. The J/100 draws just shy of 6 feet, and both boats are roughly 32 feet long. Ok, so what all this means is that boats with longer, deeper foils under water are generally going to be able to point higher in to the actual and apparent wind better than a boat with a full keel. This kinda leads me to the problem of centerboards. Moveable centerboards, depending on their shape and size can be every bit as effective as a fixed keel, but in many cases the shape, size and position of the centerboards and their trunks are compromised for interior space. I believe this to be the case with the Mac26's. I think that the centerboard is too far forward to be as effective in pointing as it could be. Also, as all keels are essentially a wing under water, a more efficient shape is also going to improve windward performance.mastreb wrote:I mean it won't point or track as well. Despite having fin keels and medium aspect rigs, MacGregors do not point nearly as well as the same rig would point with a full keel. I've measured my pointing in the MacGregor and know what my similarly rigged Columbia Sabre could do, and there's no real comparison.
Yeah....no. You're now saying that the Flicka and Contessa 26 are not offshore capable boats. Um...no. Even if we're sticking just to mono-hulls, and I get that CE certification wasn't really invented till the late 80's but still.....you give me a Flicka and my @ss is outta here!mastreb wrote: But no boat under 10,000 lbs. displacement is rated CE: A-Ocean. The absolute minimum requirement is 6600 lbs, but the Angle of Vanishing stability requirements include displacement (130 - (2x mass in tonnes)) and make it nearly impossible for a light boat--especially a lightweight sailboat--to pass.
Hmm....I don't know what kind of girly state you live inmastreb wrote:Beyond 32 feet, you cannot stay below 10,000 lbs (the towing limit of a consumer truck) without going to extremely exotic materials.
, but here in the Lone Star State, we can buy trucks that will tow 30,000 lbs. (Ram 3500) and have a total vehicle length (truck and trailer) of 65 feet. So that 39 foot container yacht becomes a "trailerable" boat. You only need a class B license if you go over 26,500 lbs. total. Ok....so, all kidding aside, that's a little extreme, but my point is though trailerable is probably much bigger than you'd think. Easy to launch? Ok. I'll concede 26 is probably the max here. I gotta disagree here again. A roachy main main with battens isn't near the same as a gaff. Battens run horizontally to help the foil shape of the sail and a larger roach in the cut increases sail area. A gaff has the same horrible problem that lateen rigs have: performance on one tack is much better one side than the other because the gaff interferes with the flow of air around the sail. Had you said junk rig, I might have believed you, not a gaff.mastreb wrote:Large roach fully battened mainsails are little more than modern gaff rigs anyway, and they're beginning to dominate the cruising circuit for this exact reason: Better light wind and beam wind performance.
and had extensive experience with smaller lug rigs. were about equal to weather, but the gaffs clunky, wide, heavy hull fell away in chop. In light air I had to work to pass him. 24 foot vintage center board catboat. In windy conditions he could not keep up with my mac, due mostly to her hull shape and weight. He also has twice the room of the if I could find a way to easily unstep a freestanding mast.
Well the first half of your post didn't give me anything to disagree with, so I'll save space and not quote itJ-- wrote:Sorry it's taking a while for a response.....that whole pesky work thing.....
Certainly the Sabre has a lot less leeway than a Mac. At <2 knots, a Mac will make more leeway than headway in a beam wind, leaving the Iron Genny to get you away from the quay if you're not careful.I'm not going to argue competing opinions that involve differing acceptance of risk, because what you really wind up arguing about is what constitutes an acceptable level of risk. What I'll say is that both the Contessa 26 and Flicka are fine, stout boats, and neither is A-Ocean rated or would qualify to be if they were made today. They would both rate B-Offshore, which is to your point that they're offshore capable passagemakers. A few have made circumnavigations in them, but my point about Joshua Slocum's boat was that you can make a circumnavigation with either luck or seaworthiness, and I prefer not to rely on luck. I'll require an A-Ocean rating for my transits.J-- wrote: You're now saying that the Flicka and Contessa 26 are not offshore capable boats. Um...no. Even if we're sticking just to mono-hulls, and I get that CE certification wasn't really invented till the late 80's but still.....you give me a Flicka and my @ss is outta here!
mastreb wrote:Beyond 32 feet, you cannot stay below 10,000 lbs (the towing limit of a consumer truck) without going to extremely exotic materials.
Back to practicality, what is the point of being a trailerable boat? It's to routinely trailer the boat. If you're merely talking about a transportable boat, then there are plenty of boats that can be transported. If it takes a boat lift to get into and out of the water, then it's not really trailerable. I'm sticking to my guns here at 32 feet, maybe 33 feet maximum. I've seen a Hobie 33 getting into and out of the water, and I've got to say it's a bit awkward. I've also seen a Corsair tri 33 fail to get onto its trailer after two hours of trying and four people maneuvering it in the water, and have to fail back to a boat-lift. I wasn't involved in either of those boats other than to be waiting behind them.Hmm....I don't know what kind of girly state you live in
mastreb wrote:Large roach fully battened mainsails are little more than modern gaff rigs anyway, and they're beginning to dominate the cruising circuit for this exact reason: Better light wind and beam wind performance.
Yeah, I'm not really talking about a "classic" gaff rig from 100 years ago on a wooden mast, and I should have been clear about that. The bermudan rig has had 100 years of technological development since 1915, and the gaff rig none. Why? because Bermudas can win races on those triangle courses, and all the development money comes from races.I gotta disagree here again. A roachy main main with battens isn't near the same as a gaff. Battens run horizontally to help the foil shape of the sail and a larger roach in the cut increases sail area. A gaff has the same horrible problem that lateen rigs have: performance on one tack is much better one side than the other because the gaff interferes with the flow of air around the sail. Had you said junk rig, I might have believed you, not a gaff.
Admittedly, the only gaff rigged boat I've ever sailed is an Optimist. But really, if the gaff was a faster, more efficient rig they would be used on Lasers, Hobies, Melges, J's, Colgates, Ensigns, Farrs, 420's, Macgregors, Santana's...etc. But they're not.
Yes, that's basically it. It would have a sliding gunter, and I'm designing it to work with the current mast and marconi/B&J aft-swept spreaders rig. The core issue is that it moves the CE aft, which should be balanced with a forward staysail on a sprit, although my math shows I can get the CE within 12" of it's current position by furling my genny to 90%. Given that these boats don't have much natural helm leaving the helmsman in a constant fight to keep course anyway, I doubt I'll notice much difference.Wayne nicol wrote:dont know- but maybe this is the kind of high aspect gaff mastreb is thinking about- not putting words in your mouth mate, just summizing here- please correct me if i am on the wrong tack here
http://www.woodboatbuilder.com/pages/ma ... -page.html
