Climbers talk about “heavy pulls,” “big grips,” or “finger strength,”
but the body doesn’t experience load the way climbers feel it.
Your forearm generates force.
Your tendons transmit force.
Your pulleys direct force.
Your joints shape force.
The end result is a force line — the path the load takes through bone, tendon, pulley, and joint.
Understanding this force line is the key to:
- injury prevention
- better grip choice
- safer finger strength training
- understanding why one edge feels “sharp” and another feels “smooth”
- predictable progress
This is the simplest, clearest explanation a climber will ever read.
1. The force line starts long before it reaches the finger
When you pull on a hold, force moves like this:
forearm muscle → forearm tendons → finger tendons → pulleys → bones → hold
This means:
- finger structure does not work alone
- the whole chain contributes
- weaknesses anywhere amplify load somewhere else
You’re never “just pulling with your fingers.”
You're loading a chain of structures.
2. The primary “rope” of the chain: the flexor tendons
Two flexor tendons transmit almost all finger pulling force:
- FDP (deep tendon) attaches at the fingertip
- FDS (middle tendon) attaches near the middle joint (PIP)
Their roles in the force line:
- FDP = main pulling engine
- FDS = stabilizer + force splitter
When FDP is overloaded relative to FDS →
the force line becomes sharper and the pulley load increases.
When both work together →
the force line becomes smoother and safer.
3. Pulleys redirect the force line (like climbing quickdraws)
Pulleys act like small “redirectors” that keep the tendon path tight against the bone.
They change the direction of the force line.
- In half crimp → pulleys take high load
- In open hand → tendons take more direct load
- In drag → the force line runs smoother and more evenly
When a joint angle changes, the pulley load changes — instantly.
This is why small mistakes in angle → big consequences.
4. The real reason grip angle matters
Grip positions aren’t different because of grip names.
They’re different because they change the force line curvature:
- More PIP bend = sharper angle = higher pulley tension
- More DIP curl = smoother angle = more FDP load
- Larger edge = flatter force line
- Smaller edge = more acute angle = increased stress
Example:
12mm edge vs 20mm edge
→ same load feels “sharper” because the force path is bent more tightly
→ more force concentrates at A2
This is why joint stability is the foundation of safe training.
5. How hold size changes the force line
Hold size does not just change difficulty — it changes force mechanics.
Small hold:
- higher angle at the PIP
- steeper tendon direction
- greater A2 stress
- more “point pressure” feeling
- larger FDP demand
Bigger hold:
- smoother angle
- lower mechanical stress
- more distributed load
- lower risk
When the hold gets smaller, the force line becomes more “angular.”
Angular = dangerous.
6. Why some grips feel sharp, some feel smooth
The feeling in your finger is the result of force distribution.
If the load is:
- evenly distributed → smooth force
- concentrated at one pulley → sharp force
- bouncing between tendons → unstable force
Sharp = mechanical overload
Smooth = mechanical coherence
Climbers often confuse difficulty with danger.
Smooth difficulty = safe challenge
Sharp difficulty = structural threat
7. The force line explains almost every climbing injury
Most climbing injuries (especially A2/A3) happen because:
- the finger angle changed unexpectedly
- the force line snapped to a steeper path
- one pulley suddenly took too much load
Examples:
- foot slips
- sudden deadpoint catch
- unexpected swing
- misjudged grip
- fatigue-induced angle drift
The force line is the silent killer.
Train it, control it, respect it.
Putting it all together
Every time you grip a hold, the force line determines:
- where load goes
- how much stress pulleys take
- how hard tendons must work
- how dangerous or safe the position is
The force line is shaped by:
- tendon tension
- pulley redirection
- joint angles
- hold size
- grip selection
- movement quality
This is why training finger strength is not about “getting stronger” —
it’s about managing the force line.