All Will Fall Gravity Battery Guide: Storage and Placement
Gravity Batteries in All Will Fall can feel inconsistent if you build them the same way every time. The system is tied directly to vertical space, and small placement mistakes quietly cut your total storage.
Gravity Battery Storage Explained
Gravity Batteries in All Will Fall store more energy the higher they are placed, and anything blocking their vertical drop path reduces total storage.
That’s the full mechanic the game uses.
The battery works by dropping weight downward to generate and store power. The longer that drop is, the more energy gets stored. If something interrupts that space, even slightly, the battery loses part of that drop distance and your storage goes down.
You’ll notice this when two identical setups give different numbers. Nothing is broken, one just has less usable vertical space.
Quick Guide
Higher placement = more stored energy
Clear vertical space below = full efficiency
Any obstruction = reduced storage
Stacking batteries = worse performance
Side by side placement = full value
Why Gravity Battery Storage Is Lower Than Expected
This is where most builds go wrong. The game treats anything in the drop path as a blocker, even if it doesn’t look like it should matter. That includes small objects and structures that sit underneath the battery.
Players have seen setups where:
A blocked battery stored around 10000
The same battery unblocked stored around 14000
That missing value is lost drop distance, nothing else.
You don’t get a warning for this either. The battery still works, just at reduced capacity, so it’s easy to overlook.
Can You Stack Gravity Batteries In All Will Fall
Stacking feels like it should double efficiency, but it does the opposite.
When you place one battery above another, the lower one blocks the drop path of the upper one. That cuts its usable distance and reduces total storage.
You end up with:
Less storage than expected
Wasted vertical space
No benefit from stacking
If you remove the lower battery, the upper one immediately gains back its full storage. That’s the clearest sign the system is based entirely on vertical clearance.
What Blocks Gravity Batteries
This is stricter than it looks in-game.
Anything with a physical presence can reduce storage if it sits in the drop path:
Other Gravity Batteries
Platforms
Paths
Crops
Ziplines
Even something small can clip the space enough to reduce efficiency
The game doesn’t care what the object is, only that the space isn’t fully clear.
Best Gravity Battery Placement In All Will Fall
Once you understand the system, the optimal setup is straightforward.
Build For Height First
The higher the battery is placed, the more energy it stores. Elevation is the main scaling factor for this system.
Keep The Drop Path Completely Clear
Nothing should sit directly underneath. One small obstruction is enough to lower storage.
Place Batteries Side By Side
If you already have a high platform, placing multiple batteries next to each other gives full value. Stacking cuts efficiency.
Use Open Vertical Space
Cliffs, tall structures, or empty shafts give the best results because they maximize uninterrupted drop distance.
Final Blurb
Gravity Batteries don’t fail outright, they just quietly perform worse when placed wrong. That’s why they can feel inconsistent across builds.
Once you start thinking in terms of vertical clearance instead of just placement, the system clicks. Higher builds with clean space underneath consistently give better storage, and stacking stops being tempting once you see how much it actually cuts your output.
