Jump into Figure 4 in Tao’s post, start from 0, follow the red vectors for a half circle in any direction, then fold up the sail, bingo—you’re moving straight downwind 2x faster than the wind. Yes this assumes a pure lift sail and no friction, but you can almost-satisfy both assumptions and still outrun the wind by a big margin.
No. The black vectors show the apparent wind velocity. The red vectors, which are perpendicular to the black vectors, show the resulting boat velocity. You would have to build up speed moving (nearly) perpendicular to the apparent wind, then fold up the sail and steer downwind. Your total travel time to get downwind would be greater than the wind’s travel time, so you would still not outrun the wind.
Read the caption below the figure. Neither red nor black vectors are velocities. Velocity values are denoted by points on the graph plane. The graph is in velocity space, not physical position space. The point 0 is the rest velocity, not the boat’s starting point. The point v_0 means the boat is moving with the wind. The vectors show how the pilot can change the velocity of a boat already moving at a given velocity; they’re acceleration vectors. Black vectors show accelerations possible with a pure-drag sail, red vectors are for a pure-lift sail.
Hmm. I think you’re right. Oops. You can sail downwind faster than the wind. I tried to write up a detailed proof of why it wouldn’t work, and it worked.
Phil, sorry, but you’re wrong. It is possible to travel straight downwind faster than the wind. The mechanisms that Tao outlines don’t have the limitation you think they have. This quote:
But if this is the only dimension one exploits, one can only sail up to the wind speed |v_0| and no faster...
doesn’t mean what you think it means. Reread the quote carefully, paying attention to the words “the only dimension”. Then reread the paragraph that follows it in the post, then take a hard look at Figure 4 and the paragraph that follows it, then come back. You’re just embarrassing yourself.
Again, Tao did not say that DDFTTW is possible. Tao said that it is impossible. See my comment above. [Retracted later.]
Jump into Figure 4 in Tao’s post, start from 0, follow the red vectors for a half circle in any direction, then fold up the sail, bingo—you’re moving straight downwind 2x faster than the wind. Yes this assumes a pure lift sail and no friction, but you can almost-satisfy both assumptions and still outrun the wind by a big margin.
No. The black vectors show the apparent wind velocity. The red vectors, which are perpendicular to the black vectors, show the resulting boat velocity. You would have to build up speed moving (nearly) perpendicular to the apparent wind, then fold up the sail and steer downwind. Your total travel time to get downwind would be greater than the wind’s travel time, so you would still not outrun the wind.
Read the caption below the figure. Neither red nor black vectors are velocities. Velocity values are denoted by points on the graph plane. The graph is in velocity space, not physical position space. The point 0 is the rest velocity, not the boat’s starting point. The point v_0 means the boat is moving with the wind. The vectors show how the pilot can change the velocity of a boat already moving at a given velocity; they’re acceleration vectors. Black vectors show accelerations possible with a pure-drag sail, red vectors are for a pure-lift sail.
Hmm. I think you’re right. Oops. You can sail downwind faster than the wind. I tried to write up a detailed proof of why it wouldn’t work, and it worked.
Phil, sorry, but you’re wrong. It is possible to travel straight downwind faster than the wind. The mechanisms that Tao outlines don’t have the limitation you think they have. This quote:
doesn’t mean what you think it means. Reread the quote carefully, paying attention to the words “the only dimension”. Then reread the paragraph that follows it in the post, then take a hard look at Figure 4 and the paragraph that follows it, then come back. You’re just embarrassing yourself.