[Paddlewise] Apology for post about paddle efficiency

Dear Nick,

I most sincerely and humbly apologize to you for the way my last posting 
came across.  It was not my intent to insult you, it was late and I had 
been at it too long.  I was pretty frustrated with my inability to be 
understood, and I was attempting to point out the error in your statements 
by showing strong emotion in my statements.  I should have been more 
careful with my words, I have a lot of respect for you and every one else 
on this list.  I never called you any names, or attacked you personally, 
and it was not my intent to insult you.  Please accept my apology in all 
sincerity.

After considering where the communication was not being understood I 
realized it was one of terminology.  In my career as an engineer very 
precisely defined words are used to ensure proper understanding and it has 
become so automatic that I simply made statements, and defended them, as if 
everyone else understood these words the same way.

Efficiency is one of these words.  It is a word commonly used in casual 
speech in ways that are improper in engineering.  For example I could say 
"my wife spends our family income with great efficiency", this could be 
taken two ways: either I was being sarcastic as how fast she spends money, 
or I was complimenting her on how much value she gets by careful shopping. 
 You would need tone, facial express, body language, etc. (i.e. more 
information) to know more of what I had in mind, both of which we are 
deprived of with email.  However, neither of these are accurate usage with 
regards to the engineer's understanding of efficiency.  I would never make 
a statement like that (especially if I want to stay married!) because that 
is not what efficiency is, and it is very imprecise statement since the 
meaning could be misunderstood.

Another common usage is when talking about fuel economy in automobiles:  to 
say "the Corolla is more efficient than the Mercedes Benz" could be untrue 
in an engineering sense.  The efficiency with which the Mercedes engine 
converts fuel into mechanical energy could be higher than the Corolla, but 
because the Mercedes is bigger and heavier it still take more fuel to drive 
it over a given distance as the Corolla.  It would be correct to say that 
the Corolla has better fuel economy, but it is not necessarily more 
efficient if you define it as it is in engineering usage.

Efficiency as defined the way I used it, as used in engineering, is a ratio 
of the power output divided by the power input.  To know what this means 
you have to know what "power" is, another one of those words being thrown 
around and commonly used in everyday speech, but has a very precise 
technical definition.  The popular snack bar called a "Power Bar" for 
example is a nonsensical label from an engineering point of view (but I 
would hope that most engineers realize that marketing knows no such 
limitations).  Common units for power are horse power, or watts, or 
foot-pounds per minute.

Power is defined as the work rate.  That is the amount of work done over a 
given amount of time.  Work now must also be defined: it is a unit of force 
applied over a distance, common units are Foot-pounds for example.  Force 
is defined as a mass with an acceleration applied to it, hence Force = mass 
x acceleration, or F=ma, units of force are pounds or newtons.  Note that 
pounds and kilograms are not equivalent units since pounds is a unit of 
force and kilograms is a unit of mass.  The old English unit of mass is a 
 slug, which would be the English equivalent unit of mass to the metric 
kilogram.  It is just understood generally that a kilogram equals 2.2 
pounds of force when the acceleration of 9.8 meter per second (or one 
standard gravity unit) is applied to it.

So I have never argued, as you stated, that X does not equal X.  I argued 
that force, does not equal work, and it does not equal power, and it can 
not be equated to efficiency in any way.

This background is necessary to demonstrate that in order to measure 
efficiency, the way I was using it, you must have three different 
measurements:  a unit of force, a unit of time, AND a unit of length.  To 
say the paddle that moves slower with the same force (a unit of time and a 
unit of force only) is more efficient is not possible, you do not have 
enough information.  This is like I ask you how fast you were driving, and 
you say "12 minutes", and I ask over what distance?  And you say that does 
not matter, all that matters is 12 minutes, all other things being equal. 
 What???? Without more information, 12 minutes is meaningless.

Your glider vs. parachute comparison was equally nonsensical without equal 
basis of comparison.  When you make statements like that you indicate to me 
you are viewing these comparisons in a very confused and imprecise 
non-technical way.

The whole idea of "slippage" when applying a force against a fluid is as 
equally meaningless, especially when talking about efficiency the way I 
meant it.  If you define slippage as the amount of distance the paddle move 
backward from a fixed point relative to the water surface during a stroke, 
you end up with a lineal distance measurement only.  Not enough information 
to determine efficiency at all.  I suppose you could redefine it as 
"slippage efficiency" and use that as a criteria.  But it would not be 
related to power consumption at all.  By this definition than the largest 
paddle you can get would have the least slippage, and be the most 
"slippage" efficient.  But clearly this is not true with regards to power 
consumption.

Slippage is a nonsensical way to even think of the way a paddle works 
anyway.  You can not apply a force against a fluid without "slippage", it 
would not be a fluid by definition.  Even just comparing the paddle 
movement in water to pushing against a solid object  like concrete is too 
alien for someone who understands fluid mechanics to think about, fluids do 
not act that way.  This is like saying a 624 LB boat will displace 10 cubic 
feet of fresh water (62.4 LB/cu. ft.), 9.75 cubic feet of sea water (64 
LB/cu.ft.), and ZERO cubic in cured concrete.  It is not comparable, that 
is a nonsensical statement.  [In case you were wondering, it would be about 
4 cubic feet in liquid concrete].

And when I consider a touring paddle for sea kayaking I would primarily 
want to consider total power consumption over a given distance.  That is 
what matters most for sea kayak touring.  For white water or surf kayaking 
the requirements, and the paddle design, would be totally different.  As 
different as the hull requirements I would imagine.  Though I am almost 
totally ignorant of what is necessary for WW kayak paddles, all I know 
about it is what I have seen on TV.  I would think a native style paddle 
for surfing or WW use would be a big mistake, but I could not tell you 
since I have never experienced it.

So speed or cadence of your paddle stroke is not relevant to power 
consumption nor efficiency in sea kayaking.  Neither is "slippage", neither 
is the size of the blade, nor the length of the shaft.

For true efficiency, the way I meant it, the "power-in" is the work rate 
(say in Foot-pounds per minute) done by the paddler necessary to maintain a 
given hull speed, the "power-out" is the force required to overcome the 
drag on the hull (in pounds) at a given speed (feet per minute).  Hence the 
total units for both would be foot pounds per minute, and you get a 
dimensionless quality when you divide power-out by power-in, and efficiency 
is always going to be a number less than one, or in a percentage.

That is what I meant when I said the high aspect ratio paddle is more 
efficient for sea kayaking than the low aspect ratio "Euro" paddles.  The 
high aspect ratio paddle will use less power (fewer calories) traveling the 
same distance at the same speed.  And that is a fact of fluid mechanics, 
not a theory or an opinion.

If you optimize the foil shape for a high aspect ratio paddle blade, and 
developed the optimum stoke mechanics to take advantage of it, and you do 
the same with a low aspect ratio plan form, the high aspect ratio paddle 
will consume less power going the same speed.

There is no way around it, it is a fact of physics, not my opinion, nor 
just a theory.  A hard fact you can not change.  There are complex but very 
well known scientific reasons for this.  I will not bore anyone with the 
details, but they are available for anyone to look up for themselves.

Also note that the same paddle design that is most efficient for touring 
would not be the best for racing.  Racing is not concerned with minimum 
power consumption at touring speeds, but rather in getting maximum speed 
out of the power available.  For that you need a different blade and very 
different stoke mechanics.  So never compare racing technique or racing 
paddles with touring, they are attempting to optimize different qualities.

All of my statements were directed at explaining this, and my words were 
very precisely used, as were all my descriptions of your postings.  None 
were ever meant to be taken as insults (though they were expressions of my 
frustration).  Note that even calling your posting nonsensical or ignorant 
were not meant in a pejorative way, I used the term ignorant about myself 
above when describing things I know little about.  Accurately defined 
"ignorant" is not the same as stupid.  I do not use it that way and I did 
not intend you to take it that way.

This just demonstrates how important it is that everyone use words the same 
way, otherwise you can not communicate.  It is especially unfortunate that 
recent trends have been to use fancy words improperly because it makes 
speech or prose appear more sophisticated.  It is one of my pet peeves, and 
really demonstrates lack of language skills, not sophistication.  But it 
also leads to many unknowingly using words like "efficiency", "power", and 
"force" in inaccurate ways, and not to understand what these words really 
mean.

All the best.

Peter Chopelas


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