Subject: Re: [harryproa] Re: Rig - windward or leeward? Forces at play
From: Rob Denney
Date: 11/17/2010, 8:27 AM
To: harryproa@yahoogroups.com.au
Reply-to:
harryproa@yahoogroups.com.au

 



On Wed, Nov 17, 2010 at 3:56 PM, tsstproa <bitme1234@yahoo.com> wrote:
 

From top to bottom this time.

Don't know gobbeldegook...Just miss communication

There not my beams just an example of wall thicknes for solid glass and demension to achieve bending moment strengths per Arthur Edmunds designing sail and power pg 152. If there 10% heavier and beams were designed for tri weighing 9000 lbs. Then On a boat weighing 1/4 of that beams should should be lighter than yours.

Your reason I didn't get it? Can you give it to me again just the facts of how and why.

Which bit do you want explained? Specifically. 


Okay luck it was............... oops or was it isn't!?

No idea what you mean. Please explain.


I always assume your boats to have a middle platefrom conecting the two hull along with two beams.

I guess solitary doesn't have one. My mistake.

None of them do, structurally speaking. 


I think I know where your coming from now. Simplified lets say there was a pivot point on each beam midway between the two hulls and I placed mast in leeward hull and sailed the boat. The pivot point at beams should rise to form an A shape. If I then placed the mast at midpoint and sailed the boat the beam should sink to form a V shape. Right showing direction of forces at play. Which load is greater being pushed up or the being pushed down and why?

Where and why does the difference in rig placement racking loads come in to play?

Correct me if I'm wrong or totally of base with pivot point being pushed up or down.

Totally off base.  The wracking loads come from the mast being on one hull and the boat sailing on the other.    Take a model with the mast in the lee hull and put it in the bath.  Use the mast to depress the bow.  See how much twisting force is on the beams (very little, none if the ww hull is flying).   Then repeat with the mast on the ww hull. Big loads, increasing as the beam seperation reduces.   

This load is nothing to do with vertical hinges (horizontal pins) mid beam.  In terms of this hinge, there is no difference in the scenario you describe.  However, put the rig and all the accommodation in either hull and the hinge sees much higher loads (normal sailing an Atlantic proa, caught aback in a Pac proa) than if the weight is more evenly distributed. 

rob 



Todd

--- In harryproa@yahoogroups.com.au, Rob Denney <harryproa@...> wrote:
>
> On Tue, Nov 16, 2010 at 4:25 AM, tsstproa <bitme1234@...> wrote:
> >
> >
> >
> > Retort in reverse to Robs post.
> >
> > When I usually ask for help I usually get a very general or vague answer.I stopped asking >for help along time ago. I agree the beam thing is complicated but in theory my general >statement still stands and you have yet to prove it wrong.
>
> If you tell me I am wrong, I will discuss it.  If you ask for help, I
> give it.  If you talk gobbledegook, I ignore it.  If I have confused
> any of these, please let me know which ones and I will try to make
> amends.
> >
> > I said I don;t see how or why Robs beams would be any lighter than a pacific or a Atlantic. I would add that even if they where the significance would be nominal over what Robs Lends it to be. Tetter- totter ever play on one? The balanced beam weight plays very little roll It just needs to be strong enough to support weight at each end.
>
> I explained why they are lighter.  Then you said they would not be
> "much" lighter.  "Much" is pretty subjective, so nothing I can say
> about it.  Solitarry weighs about 700 kgs in racing trim.  70 kgs (the
> difference between your glass beams and mine) is 10%.  I think this is
> relevant. Whether it is "much", is up to you.
> >
> > Luck had everything to do with it. Good thing more bulkheads didn't pop or worse yet have >the hull tear when the bulk head popped.
>
> You do not help your case by being dogmatic about things you know nothing about.
> >
> > Read your own post and for an example the latest one by another poster. >Misrepresentation in communication turns into who can win an argument vs truth. Chess >game really.
>
> This list is about boats, not arguing styles.
>
> >Holey grail was a In reference to Robs holding back on beam wall thickness tapering due to >his assumption of my knowledge again. What he thinks I don't know! Trying to win his >argument on deception vs truth.
>
> ditto
> >
> > If Rob you are referencing that your beams are lighter due to your boat having the middle platform that also is a support structure between hulls making your conventional beams lighter than need be. I'd agree, possibly.
>
> No idea what you are referring to. As far as I know, I have no "middle
> structure", and if I did, I cannot see how it would make the beams
> stronger unless it spanned the same distance. Feel free to make a
> case for a middle platform, but please, support it with drawings,
> numbers and formulae (I can help with these if required).
>
> rob
> >
> > --- In harryproa@yahoogroups.com.au, Rob Denney <harryproa@> wrote:
> > >
> > > On Mon, Nov 15, 2010 at 4:02 AM, tsstproa <bitme1234@> wrote:
> > >
> > > >
> > > >
> > > > I can see better now where your confusion has set in, at last once again.
> > > >
> > >
> > > Good for you, perhaps you could enlighten us.
> > >
> > > >
> > > > Nice, can't wait to hear what happens in a sea way couple 1,000 miles away
> > > > from shore. Just a popped bulkhead maybe they got lucky this time.
> > > >
> > >
> > > The bulkhead popped after 3 days in 45 knots plus. It was not built
> > > according to the plans, so luck did not have anything to do with it.
> > >
> > > >
> > > > Does your boat float when filled to interior capacity with water?
> > > >
> > > Not only floats, but could be sailed. As the hulls are each divided into 7
> > > watertight compartments , it would be pretty hard to fill it to capacity
> > > without using a hose.
> > >
> > > >
> > > > I ask for the general thickness from the beam you presented After I gave an
> > > > example of a 17' hollow fiberglass 8''x8'' beam with a 1/2 '' wall
> > > > thickness.
> > > >
> > > > Multiple thickness lay ups wooo whoooo whats new! like its a holy grail or
> > > > something when you could have just generalized...
> > > >
> > > Nobody said it was new. You said yours was lighter than "Rob's boat", I
> > > pointed out that you were mistaken. General thickness varies from 1.6mm to
> > > 12 mm. Hope this helps, but can't see how it will.
> > >
> > > rob
> > >
> > > >
> > > > Todd
> > > >
> > > > --- In harryproa@yahoogroups.com.au <harryproa%40yahoogroups.com.au>, Rob
> > > > Denney <harryproa@> wrote:
> > > > >
> > > > > On Sun, Nov 14, 2010 at 4:27 AM, tsstproa <bitme1234@> wrote:
> > > > >
> > > > > > Center of gravity and buoyancy. The more I can keep it that way the
> > > > >more it will resist heeling.
> > > > >
> > > > > This is meaningless.
> > > > >
> > > > > >Buoyancy along with a light weight craft the beams could be over built
> > > > >and still not effect the the intended use of design.
> > > > >
> > > > > The discussion was about harrys vs Atlantics and one mast vs two. The
> > > > > harry beams will always be lighter.
> > > > >
> > > > > >
> > > > > > Assume just one force to prove one point doesn't make sense.
> > > > >
> > > > > Maybe, but unless and until you grasp this point, further discussion
> > > > > is not going to achieve anything.
> > > > > >
> > > > > > So for your beams , your saying due to having a ww60/40lw displacement
> > > > and having an unstayed mast your beams can be built lighter than a pacific
> > > > or atlantic type using the same construction method being engineered for the
> > > > specific use on each craft.
> > > > >
> > > > > Assuming the mast is mounted in a hull, the overall boat weights are
> > > > > the same and it is a responsible design, the beams on a 60/40 proa
> > > > > will be the same as the beams on a 40/60 proa. They will be heavier
> > > > > than the beams on a 50/50 and lighter than the beams on a 70/30, a
> > > > > 30/70, a 20/80 or an 80/20, etc etc. The upper limit is if the
> > > > > windward hull is so small that it is submerged before the boat
> > > > > capsizes.
> > > > > >
> > > > > > You want me to pay 500.$ for what?
> > > > >
> > > > > I don't want you to pay for anything. You asked for the laminate of
> > > > > my beams. I told you it would cost you $500.
> > > > >
> > > > > rob
> > > > > >
> > > > > > Todd
> > > > > >
> > > > > > --- In harryproa@yahoogroups.com.au <harryproa%40yahoogroups.com.au>,
> > > > Rob Denney <harryproa@> wrote:
> > > > > >
> > > > > > > I don't understand your final paragraph. Or see what it or the video
> > > > has to
> > > > > > > do with this discussion. No idea what walla is, nor how it proves
> > > > that
> > > > > > > buoyancy to leeward of the mast makes a boat more stable, apart from
> > > > the
> > > > > > > added righting moment from the mast weight. Assuming the force on the
> > > > sail
> > > > > > > acts horizontally through the coe (and ignoring the rig weight), it
> > > > makes no
> > > > > > > difference to the force required to fly a hull where the mast is
> > > > located
> > > > > > > across the boat. Maybe your rig is a greater component of the
> > > > righting
> > > > > > > moment than it would be on a full size boat? Again, draw a picture
> > > > (or try
> > > > > > > to unbalance a chair by pushing or pulling it sideways) and this will
> > > > be
> > > > > > > obvious.
> > > > > >
> > > > > >
> > > > >
> > > >
> > > >
> > > >
> > >
> >
> >
>


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