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E-Scooter

E-Scooter Range Calculator

Estimate remaining range with SOC slider, tyre pressure, and voltage sag at 36 / 48 / 52 V.

WattQuick

36 V sags harder under load than 48 V or 52 V

50 %

Lower SOC increases voltage sag and cuts available power

Primary result

10.6km

Estimated current power: 46 %

Estimated current power46%
Consumption15.3Wh/km
State of charge50%
Voltage efficiency loss7.5%
Usable energy162Wh
Pressure penalty0Wh/km
Mass penalty0.21Wh/km
Voltage sag penalty1.07Wh/km
Nominal voltage36V
Total mass89kg

Note: SOC slider models the dynamic power curve: P_eff = P_nom × (SOC/100) × voltage efficiency. Sag scales from 0.6× at 100 % SOC to 2× at 20 % — lower voltage packs (36 V) suffer higher % loss per volt dropped.

About E-Scooter Range Calculator

Standing drag

E-scooters use higher Wh/km than e-bikes due to stance and small wheels.

Dynamic SOC

Slide SOC from 100 % to 20 % to see sag double and remaining range shrink — models why scooters slow on hills mid-ride.

Note

Planning estimates for e-scooters—verify against manufacturer specs. Small wheels and light packs behave differently from e-bikes.

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