Most athletes learn sprinting as push, swing, recover, repeat. AQ explains why sprint mechanics involve multiple contributors working simultaneously throughout the stride and why that changes how speed is understood.
swing phase
Stride Frequency Is Earned, Not Forced
Most athletes think faster stride frequency comes from quicker leg movement. AQ explains why faster turnover may actually depend on the pushing side and swing side continuing to contribute more together, why the body limits cycling speed, and why stride frequency may be earned rather than simply forced. 🚀💥
Pushing Leg Force vs. Whole-Body Push for Running Speed
Most athletes believe faster sprinting comes from producing more force with the pushing leg. AQ explains why the pushing leg still matters, but why speed may also depend on how much the rest of the sprint system contributes to the push expression occurring through that leg. 🚀💥
What Actually Creates Force in Running? (And Why Most Athletes Get It Wrong)
Force is one of the most misunderstood aspects of running. Many athletes think strength alone creates speed, but force depends on how your system applies and transfers energy. Learn what actually creates force in running and how to improve it.
Why Faster Turnover Doesn’t Always Make You Faster (The Stride Rate Myth)
Many athletes believe faster turnover automatically creates more speed. AQ explains why stride rate is often a reflection of sprint-system function and why identifying the real limitation may matter more than simply trying to move your legs faster.
The Real Cause of Overstriding (And Why It’s Not What You Think)
Many athletes try to fix overstriding by changing where the foot lands. AQ explains why overstriding may be the visible outcome of deeper contributor limitations involving the pushing leg, swing leg, arms, torso, and strength balance.
What Influences Ground Contact Time? (And Why Quick Feet Aren’t The Answer)
Most athletes assume shorter ground contact time creates faster running. AQ explains why contact time may often be an outcome of contributor relationships already influencing the next step before the foot reaches the ground.
Does Foot Strike Matter? (Yes—But Probably Not As Much As You Think)
Does foot strike matter for running speed? AQ explains why foot strike deserves attention, but often isn’t the biggest factor limiting sprint performance.
What Influences Ground Mechanics? (And Why The Foot Isn’t Always The Source)
Ground mechanics describe how the foot interacts with the ground during running. AQ explains why the foot may be where ground mechanics become visible, while the sprint system may be what influences them.
