My guess is few if any. Several years ago I know Levi Leipheimer was given the recommendation by Max Testa to try in the 145-150 range but the best he was able to bring himself to do was to shorten his cranks to 170. (edit: I know this because Levi called me and asked my what I thought. At the time I was like everyone else and could only think about power so I told him I could make an argument but I didn't think it made a big difference.) It is especially hard to get people who have had great success doing one thing to change. But, even Lance is thinking about this. "My whole career I rode one-seventy-five cranks for both road and time trial," he said. "But, I fell victim to Slowtwitch Forum advice and went to one-seventies. There is even talk of going shorter, but, for me, one-seventy is short enough."simo1733 said:
FrankDay said:
That is the point, he wasn't willing to make but tiny changes. Lance is doing the same it seems. Elites are the most difficult to get to change because they have been successful and they attribute their success to what they have done. Plus, they have the most to lose if the change doesn't work out. Change usually comes from lower ranks or from the outside. In recent times for cycling change has generally started in triathlon.Glenn_Wilson said:levi is a midget of course he would be open to give you and the 140's a call!
Climbing is about power, not crank length. Crank length is accounted for when climbing through gearing. If you can generate a sustainable 350 watts on both 110 mm cranks and 175 mm cranks you should climb exactly the same as long as you are geared properly to be at the cadence necessary to allow you to generate the power. (You might even climb a little faster on the shorter cranks since they should weigh less.) If you aren't geared properly you aren't going to climb well regardless of how long your cranks are.U r driveing up a long hill with some short CRANKS.
I am not sure what you are asking exactly. The only difference between PC's and regular cranks is that the circular movement of the foot has to be done actively, there can be nothing passive (one leg helping the other) because any lack of active "driving" during any part of the stroke means the crank stops moving. So, going to shorter cranks simply means the range of motion for this part of the stroke is less just as it is with the upstroke and downstroke. This reduced range of motion seems to make using PC's a lot easier and people do seem to adapt much faster.coapman said:
FrankDay said:
Huh? What does this have to do with this "short cranks" thread, which I think is valid for both regular cranks and for PowerCranks and for mashers and spinners (although I suspect that spinners (those that spread the work out over most of the circle) will be able to go shorter than mashers (those that do all of the work on the down stroke). Let's try not to turn this into a PowerCranks thread.coapman said:
FrankDay said:
Really? The world is grateful that is off topic so will be allowed to die here.coapman said:
FrankDay said:
FrankDay said:
Perhaps so but my thoughts are for those few who are unable to attain that position on standard cranks due to flexibility issues. Thanks for the feedback.coapman said:
FrankDay said:
Yes, these are specially drilled out PowerCranks to allow him to experiment with crank length in 20 mm increments. It would be more difficult (but not impossible) to do this experiment, I suppose, on regular cranks because it would require having a whole bunch of hard to find crank lengths to do the same.coapman said:
I do not have a clue what you are talking about when you say "you gain only part of this in the upper clearance". If you take 20 mm off the crank length you take 20 mm off the entire circle.
Again, what are you talking about here? What does this have to do with this crank length issue?
FrankDay said:
I think I have done this before but here goes.coapman said:
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