In The Secret of Sailing a new explanation of the physics of sailing is presented based on the new analysis of the generation of lift and drag of a wing in The Mathematical Secret of Flight and The Secret of Flight summarized in a talk.
Let us compare with current state-of-the-art:
- School of Physics U of New South Wales: Newton's old theory (incorrect)
- physicstoday: Bernoulli or Newton? (both incorrect or empty)
- Wikipedia: Like an airplane wing (empty)
- U of Alaska-Fairbanks: Bernoulli (incorrect or empty)
- Real World Physics Problems: Newton (incorrect)
- Teacher's Domain: Like an airplane wing (empty), Bernoulli (incorrect or empty)
- U of North Carolina: Bernoulli (incorrect or empty)
- howstuffworks: Bernoulli (incorrect or empty)
- The Physics of Sailing Explained: Bernoulli (incorrect or empty)
The most ambitious treatment is given in Physics of Sailing by J. Kimball, where both Bernoulli and Kutta-Zhukovsky's circulation theory are presented, but with a disappointing sum-up on p 163:
- The sail experiences lift because the sail deflects the wind. Equal and opposite forces mean that is the sail pushes the wind in one direction, the wind pushes the sail the other way. This explanation, which relies only on the rule of equal and opposite forces, is surely correct.
Yes, it is surely correct, as any empty theory which explains nothing, as illustrated in the above picture.
We see that there is surely a great need for a correct theory which explains the physics of sailing and that there is no such theory as state-of-the-art.
Our work fills this gap in physics theory and in particular shows that the state-of-the-art explanations represented by Newton, Bernoulli or Kutta-Zhukovsky are all incorrect.
Of course, the physics of flying and sailing is not of any interest to physicists of today paralyzed by string theory, but it is an interesting problem of physics of importance to many.
Interesting! I see forward to a software where you put in the sail and wind data to get the lift and drag values. I´ve been using the following simple formula but don´t know how exact it is.
SvaraRaderaL=alfa*(pi/180)*2*pi*(1/2)*ro*S*(Vr)exp2*corr
where alfa=angle of attack in deg, ro= air density, S=sail area, Vr=relative wind speed and corr= a correction factor = 1/[(1/zeta) + 2*S/(b)exp2] where zeta is a formfactor~0.9, and b=sail length(height)
It would be very interesting to know how well this formula predicts the lift force.
Claes, did you ever meet Hans-Uno Bengtsson (now passed away). He was obsessed with flying and wrote popular books about it. Have you read them, any comment?
SvaraRaderaNot sure whether Claes needs to contact the people in Melbourne, as the Mechanics department at the Royal institute of technology (KTH Stockholm) is also quite renowned for their research in turbulent wall flows, both in the wind tunnel and simulations. However, there seems to be no interaction...? Something to change?
SvaraRaderaI am open to interaction, but the establishment at KtH is closed to new discovery.
SvaraRaderaI think that the working way of sails is simply due to their ability to modify the linear momentum of the wind. They act as the turbine blades. With following wind there is enough only one sail which behaves as the blade of an impulse turbine using the change of the direction of the velocity relative to it, whereas, close to the wind, there are needed almost two sails which do modify both the module and the direction of the velocity, that’s they behave as the blades of a reaction turbine.
SvaraRaderaBernuolli doesn’t matter. The wind pushes the sail, the wind doesn’t pull the sail.
Michele