# Miles/kWh to kWh/100km Converter > Convert electric vehicle efficiency from miles per kilowatt-hour to kilowatt-hours per 100 kilometers **Category:** Conversion **Keywords:** miles per kwh, kwh per 100km, electric vehicle, ev, efficiency, metric **URL:** https://complete.tools/miles-per-kwh-to-kwh-100-km ## How it calculates The conversion from miles per kilowatt-hour (mi/kWh) to kilowatt-hours per 100 kilometers (kWh/100 km) is calculated using the formula: kWh/100 km = 100 ÷ (mi/kWh × 1.60934). Here, 'mi/kWh' is the energy efficiency of the electric vehicle in miles per kilowatt-hour, and '1.60934' is the conversion factor from miles to kilometers. The formula works by first converting the distance traveled per kWh into kilometers by multiplying by the conversion factor. By taking 100 and dividing it by the result, we obtain the amount of energy consumed in kilowatt-hours to travel 100 kilometers. This mathematical relationship highlights how efficient an EV is in terms of energy consumption relative to distance traveled. ## Who should use this Electric vehicle manufacturers assessing vehicle performance specifications. Environmental researchers analyzing energy efficiency trends in transportation. Automotive engineers optimizing vehicle designs for energy use. Fleet managers evaluating the efficiency of electric vehicle fleets for operational planning. ## Worked examples Example 1: An electric vehicle has an efficiency of 4 mi/kWh. To convert this to kWh/100 km: kWh/100 km = 100 ÷ (4 × 1.60934) = 100 ÷ 6.43736 ≈ 15.54 kWh/100 km. This means the vehicle consumes approximately 15.54 kWh to travel 100 kilometers. Example 2: Another EV shows an efficiency of 3.5 mi/kWh. Using the formula: kWh/100 km = 100 ÷ (3.5 × 1.60934) = 100 ÷ 5.63269 ≈ 17.74 kWh/100 km. Hence, this vehicle consumes about 17.74 kWh for every 100 kilometers traveled. These examples illustrate how different energy efficiencies directly affect the energy consumption figures for electric vehicles. ## Limitations This tool has specific limitations including: 1) The conversion assumes constant efficiency across all speeds and conditions, which may not reflect real-world driving scenarios. 2) The precision of the conversion is limited by the input value; small variations in mi/kWh can lead to more significant variations in kWh/100 km. 3) It does not account for factors such as terrain, temperature, and driving habits that can affect EV efficiency. 4) The tool assumes that the conversion factor of 1.60934 is always accurate, which may not hold true in certain contexts. ## FAQs **Q:** Why is the conversion factor 1.60934 used in the formula? **A:** The value 1.60934 is the exact number of kilometers in one mile, ensuring accurate conversion between the two distance measurement systems. **Q:** How does driving style affect the efficiency measured in mi/kWh? **A:** Driving style significantly impacts an electric vehicle's efficiency; aggressive acceleration and high-speed driving typically reduce efficiency, resulting in lower mi/kWh values. **Q:** Can this tool be used for non-electric vehicles? **A:** This tool is specifically designed for electric vehicles; non-electric vehicles use different metrics for fuel efficiency, such as miles per gallon (mpg). **Q:** What is the significance of kWh/100 km for EV buyers? **A:** The kWh/100 km metric helps potential buyers understand the energy costs associated with operating an electric vehicle, facilitating informed purchasing decisions. --- *Generated from [complete.tools/miles-per-kwh-to-kwh-100-km](https://complete.tools/miles-per-kwh-to-kwh-100-km)*