Note: the Kiteboard Calculator can be found here.
When I realized I could embed an Excel file on my blog I decided to do it with the latest version of my Automatic Windsurfing Equipment Calculator. Heh heh heh. Some changes from the old version of the calculator are: 1) Fixed the lbs / kgs typo, 2) Added a decimal place to the wind strengths table, 3) Simplified the fin size calculator, 4) Added several more categories of board to the board size calculator. Let me know what you think.
Calculator embedded below, or download the file here.
Hmmm not working for me on my laptop... Will try the PC when I get the chance.
ReplyDeleteNot working for me either now but it was working for me this morning. Just see blank white holes.
ReplyDeleteThank you. It worked for me in Open Office. As a neophyte windsurfer the previous version has helped me avoid some poor choices.
ReplyDeleteRegards,
Michael S.
Boris and Johnny- Well, dang. I hope it starts working. I guess I'm not surprised that the online functionality provided by Microsoft is quirky.
ReplyDeleteM- Glad to hear it opens in Open Office. :)
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ReplyDeleteI see the spreadsheet, but get an "Excel error, your session has exceeded its limits and has been closed error." in google chrome once I enter my considerable weight.
ReplyDeleteCdnGuy- I've been getting the same message lately. Probably best to just download the file.
ReplyDeleteJames please make an updated version for kiteboarding! Or tell me how!
ReplyDeleteMany thanks for this
ReplyDeleteI have a quick (possibly stupid) question. I'm confused about what is and isn't considered a short board, especially as many beginner boards are short and wide now.
So for a 145l Starboard Carve should I be looking on the Shortboard curve?. FYI, I'm 75kg and planing reasonably comfortably.
Many thanks,
Colum
Hi Colum,
ReplyDeleteThat's actually a good question. A shortboard is any board that lacks a daggerboard and is designed primarily for planing. Based on those criteria your Carve 145 is definitely a shortboard. Even a big formula board is considered a shortboard.
-James
mmm....does the fact of being a girl change anything?
ReplyDeleteI would never go out with a 7 for a sail, fine up to 6.5 but then my arms would drop for the fatigue XD
Val
Hi Val,
ReplyDeleteFor better or worse, it's all about weight. Girls usually don't need as big sails as boys, but that's only because girls are usually lighter. If a girl and a guy weighed the same, they would need the same size sails to plane.
The calculator shows that pretty well. A 6.5 to a 132 pound person has the same power as a 9.8 to a 200 pound person- both would get their riders going in about 12 knots.
-James
I currently have a 150L hi fly free 279. Love it but wondering at 140lbs it might not be the best option anymore for me?
ReplyDeleteJust got a 130L fanatic shark and loving and might even buy a 105L tabou rocket. Should I keep the HiFly?
Thanks!
Hi Kevin,
ReplyDeleteIf the Fanatic works well with your biggest sails then there's probably no need to hang on to the Hifly. You'll have a blast on the Rocket 105 when it's windy, and the sailing style for a Rocket is relatively similar to the freeride boards you're used to so it won't be a huge transition. At some point, though you might want to think about what style of highwind windsurfing you want to do. If you want to blast around and occasionally catch air, then the Rocket is good. If you want to play around with carving and jumping in the waves and chop then a freestyle wave board would be better.
-James
Decided to keep the hifly. Shark was easy to ride but the hifly felt exciting. Both great boards! Saving shark for choppy days. Appreciate it!
ReplyDeleteI see you're a marine bio professor. Trying to become a teacher in the marine science area. Still trying to finish ,y studies at uci in SoCal.
I really think this is a very good work!...thanks a lot!...
ReplyDeleteWhat reference did you use to get the physics right? Very good and useful work indeed.
ReplyDeleteHi ElTurco- Thanks! The formulas aren't based on rigorous physics. They're just equations to fit a trend curve to the empirical data. I got the original sail size formula off the Starboard Windsurfing forums, and adapted it from there. The fin size and board size equations I came up with myself.
ReplyDeleteI wonder if this needs an update for the new WindSUP Boards. I am getting a Exocet WindSUP 10' tomorrow and I am hoping to plane with my 7.5 sail in 12mph average wind. I am 155lbs.
ReplyDeleteI am pretty close to planing with my BIC WindSUP 10'6" but the BIC is not known as a good planing board so I am hoping the foot straps and the step tail and the shape give me that extra speed.
Also with the WindSUP boards it is not easy to tell when you are planing or fast gliding in my opinion. With my shorter board I am either in the foot straps and going fast on a plane or I am slogging and not able to step into the foot straps. The WindSUP has a pleasant fast glide which is kind of like planing, but not as fast I suppose.
Hi Bryn,
ReplyDeleteI don't think it's going to be much different for WindSUPs, i.e., I don't think 12 mph will be enough for you to fully plane with a 7.5, but let me know how it goes.
Good luck!
James
Hi James
ReplyDeleteI'm not sure if maybe my wind meter is out, but I find I am getting more realistic answers when I input my weight as 70 Kg, whereas I am actually 92 Kg! I do have (for the bigger sail sizes, which is where my interest is concentrating) a 2014 Fanatic Gecko 120 (77 wide) which planes unbelievably early, is that perhaps skewing things?
Cheers
Chris
Hi Chris- An efficient board and good skills will definitely help. You probably have both of those things. Also, keep in mind that the calculator isn't designed to tell you the bare minimum necessary to plane. The number the calculator spits out is what's *ideal*; what will get you comfortably planing with some power to spare. So your absolute limit planing threshold might be around 2 knots lower than what the calculator spits out. Also, the wind is often less on the shore where you use your wind meter than out in the open water where you're sailing.
ReplyDeleteWell done and very useful, thanks!
ReplyDeleteWhy would fin size vary with sail size? Here's my thinking: the fin exists to offset the sideways thrust of the sail. The sail's overall thrust depends on size and windspeed. I chose sails based on windspeed in a way that approximately cancels the effect of windspeed. The fin's offsetting force is roughly determined by board speed. But, my sail selection also has the effect that my typical board speed is largely independent of wind speed. Therefore, I generally use the biggest fin that I can handle given the width of my board (and my typical top speed). Am I missing something?
ReplyDeleteMy recommended long board fin was 40cm. I ended up putting a 50cm fin on the board to get more low end power in light winds and more top speed. Everyone recommended around 44cm, but Maui Fin suggested 50cm based on what I wanted to do with light wind planing, and I am very happy with this size fin and run with it all the time, even in high winds.
ReplyDeleteHi Eric- I understand what you're saying. To make sense of it you have to think of component vectors. The force on the sail has both a forward thrust component (think of an arrow pointing towards the nose of the board) and a lateral pressure component (think of an arrow pointing downwind). The fin forces include drag force (think of an arrow pointing towards the rear of the board) and lateral resistance (think of an arrow pointing upwind). A small sail in high winds and a large sail in light winds provide the same amount of forward thrust... but different amounts of lateral pressure. The large sail in light winds exerts more lateral pressure relative to the forward thrust it provides, which is why you need to pair it with a larger fin to cancel out that lateral pressure vector arrow. Conversely, using a large fin with a small sail in high winds is overkill- you have more lateral resistance that you need, and you also have unnecessary drag.
ReplyDeleteBryn- Nice!
Sail thrust is more or less perpendicular to the apparent wind (if you ignore the sail drag and assume optimum angle of attack). As you note, we usually project that onto the direction of forward motion (your forward thrust component) and onto the lateral (actually downwind if you don't want a negative number). Those amplitudes relate to the overall thrust vector via cos and sin of the angle of the sail vs the centerline. Essentially, those forward thrust and lateral thrust components are controlled by the position of the boom. (We've simplified this by imagining it's all in the plane of the board.) Really, we model this as a vector at the sail's center of effort. I think we as riders intuitively position that center of effort right over the board's point of rotation. In other words, even tho the center of effort generally moves up and back for a larger sail, I think we intuitively adjust the larger sail position the center of effort the same (except for height, which I think we compensate for by leaning the sail top windward) and angle the thrust vector the same (otherwise, we'd be rig steering). This model, if correct, just leaves the fin a tradeoff between drag and up-wind ability.
ReplyDeleteThis loads through Excel online now and can't be edited.
ReplyDeleteANy ideas how to download it properly?
What weight should you input for the calculator? "Natural" or Equipped? The weight difference between a person in the nude and a person completely dressed in their windsurfing gear (Wetsuit, harness, life jacket/impact vest, booties, gloves) can be quite a bit, especially if the gear is also wet! This difference could significantly affect the results of the calculator. I'm legitimately curious because I sail in an area where this gear is required most of the year.
ReplyDeleteAnn, in my experience, I adjust the weight in the table until the readings appear closer to my actual experiences out on the water. Having done that, I would say that you will get more accurate results using your "ready for battle" all-up weight. I do find however that people's experiences of wind speed measurements do vary, depending on where you measure, the calibration of the instrument, etc. etc.
ReplyDeleteI'm probably one of a few, but could you add Beaufort as windspeed measure to the Excel?
ReplyDeleteMy dutch head is completely used to that :S
Hi!
ReplyDeleteThanks for the great spreadsheet!
I have a question:
As I understand it, the force on the sail increases with wind speed squared. Assuming we want the same force in all conditions, wouldn't the sail size decrease for example 4 times if the wind speed doubles?
I'm guessing I'm missing something here, but I'd like to understand the calculations.
Thanks,
Martin
Hi Martin- Yes, you're right that theory predicts force on the sail to increase with the square of wind strength. But in practice it doesn't quite work out like that, and I'm not sure why. I think there must be other factors that somehow offset the theoretical benefit of the increasing force on the sail.
ReplyDeleteThanks a lot James! Still valid after 12 years you first made this excell and funny enough, and rare to find information on the internet. Thanks for keeping it up! Anna
ReplyDeleteThanks for the work, I've successfully used this calculator since I started windsurfing 3 years ago! Just downloaded the latest version :)
ReplyDeleteiframe's are always nice for embedding content in your webpage! ... however I'd look into your page spamming GET calls for a jpg (hit f12 and look at console tab to see them fly)
Error msg:
GET http://www2.clustrmaps.com/images/clustrmaps-back-soon.jpg - net::ERR_BLOCKED_BY_CLIENT
I cloned Rory Mearns' website based on this blog to keep it in the air:
ReplyDeletewindsurfgearcalc.gitlab.io