As runners we all are familiar with that feeling halfway through the tempo run where breathing is sharp but steady, stride is smooth, and we’re right on that knife-edge between control and collapse? That edge has a name: Critical Speed (CS).
It’s the fastest pace one can sustain before fatigue becomes inevitable, the point where your body’s balance between oxygen delivery and energy demand begins to break.
Runners have obsessed over VO₂max, heart rate zones, and lactate threshold. But Critical Speed has emerged as a more practical predictor of endurance performance, because you can calculate it yourself with your GPS watch and a few hard runs, and it is more precise than the older “lactate threshold” methods.
At its core, Critical Speed marks the dividing line between two physiological worlds:
Below Critical Speed: your aerobic system handles the workload comfortably - lactate levels stay steady, breathing feels strong but sustainable.
Above Critical Speed: your anaerobic system takes over - lactate floods in, muscles burn, and time to exhaustion shrinks fast.
The Math
Sports scientists describe this relationship between speed and endurance with a simple equation:
D = (CS x t) \+ D'
Where:
D = total distance run before exhaustion
t = time to exhaustion
CS = Critical Speed (your aerobic “speed limit”)
D′ (D-prime) = your limited anaerobic reserve — the small distance you can “spend” above CS before burning out
How to Find Your Critical Speed?
You can do this at home:
Run 2–4 all-out efforts between 3 and 20 minutes.
Record the distance and time.
Plot distance vs time (or just use Excel/Google Sheets).
Fit a linear trendline:
Slope = CS
Intercept = D′
Use our free online calculator to determine your Critical Speed and D′ values. Simply enter your time-trial results (2-4 efforts between 3-20 minutes), and the calculator will compute your aerobic speed limit and anaerobic reserve using linear regression.
Here is the data of Aravind of Team GeeksOnFeet who ran three hard efforts after sufficient recovery,
| Effort | Distance | Time | Pace |
|---|---|---|---|
| 1 | 1000 m | 3:40 min | 3:40 / km |
| 2 | 3000 m | 11:48 min | 3:56 / km |
| 3 | 5000 m | 19:55 min | 3:59 / km |
When you plot distance (m) vs time (s) and fit a straight line, the regression yields:
Critical Speed (CS) = 4.10 m/s
→ 14.77 km/h
→ 4:04 min/km pace
D′ (D-prime) = 97 m
That means this runner’s critical speed is 14.8 km/h, or about 4:04 min/km pace. He can sustain that pace for roughly 30–35 minutes before drifting out of steady state, with an anaerobic “buffer” of just under 100 m.
Knowing your CS lets you fine-tune workouts with surgical precision, hitting the exact effort that maximizes adaptation without overtraining.
| Training Zone | Relative to CS | Feel | Purpose |
|---|---|---|---|
| Easy / Aerobic | 75–85% of CS | Comfortable, chat pace | Builds aerobic base |
| Tempo / Threshold | 90–100% of CS | Controlled discomfort | Improves lactate clearance |
| CS Zone | 100–105% of CS | “On the edge” | Extends endurance limit |
| Interval / VO₂max | 105–120% of CS | Hard, unsustainable | Boosts top-end aerobic power |
1. Threshold Endurance (Below CS)
2. Intervals in CS Zone (should only do occasionally)
3. Speed Endurance (Above CS)
4. Long Runs (Below CS)
Coach’s Tip:
Train near CS (just above & below) to raise it. The more you can sustain “the edge,” the faster that edge moves forward.
You’ve probably heard of lactate threshold (LT), which is the tipping point when your legs start to burn and pace suddenly feels unsustainable.
While LT is measured in the lab (tracking lactate accumulation in blood), Critical Speed finds the same point through performance data. Both describe the same physiological boundary, the upper limit of the “heavy” exercise zone where your body can still balance lactate production and clearance.
LT is an indirect marker, while CS, on the other hand, directly reflects the point where your muscles can no longer maintain stable oxygen consumption, phosphocreatine, and pH. It’s a more robust indicator of sustainable intensity.
In most trained runners, CS sits very close to the second lactate threshold (LT2).
Davis, J. (2024). The Science of Critical Speed, Critical Velocity (CV), and Critical Power Training for Runners. Running Writings.
Discussion on Critical Speed in The Real Science of Sport podcast
Prepared by Team GeeksOnFeet for the love of running!