It's #WorldBicycleDay and a good time to mention this graph from Scientific American, first published in 1973, and updated 2025.
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@Two9A There are velomobiles and then there’s Australian Aidan Lampe in a velomobile, who just set a world record by biking 1,512 km (!!!) in 24 hours, averaging over 63 km/hr.
Extraordinary.
ligfietsers (@ligfietsers@mastodon.nl)
Confirmed & Insane: The new 24-Hour Velomobile World Record is 1,512 km / 940 Miles #ligfietsers https://www.recumbent.news/2026/05/31/confirmed-insane-the-new-24-hour-velomobile-world-record-is-1512-km-940-miles/ #Velomobile #Races
Mastodon.nl door Stichting Activityclub (mastodon.nl)
@joncounts @Two9A I don't believe the "velomobile weighs less than bicycle" as shown on the chart though.
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@joncounts @Two9A I don't believe the "velomobile weighs less than bicycle" as shown on the chart though.
@armb @joncounts Mm, I mentioned elsewhere that I think the "human on velomobile" is one data point, and the person they found to measure energy output was just particularly small and light. It was always going to be in the ballpark of "human on bike" though.
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It's #WorldBicycleDay and a good time to mention this graph from Scientific American, first published in 1973, and updated 2025.
A person on a bike is the world's most energy-efficient mode of transport, and it's not even close. Salmon use three times as many joules/g/km to get around, and then it's jet aircraft at 5x.
@Two9A Can somebody update this and add an e-bike?
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Muscles are about as efficient as combustion engines.
Fatbikes in NL take about 20 Wh/km:
Hoeveel stroom verbruikt een elektrische fiets? | ANWB
Hoeveel kWh een elektrische fiets verbruikt hangt af van meerdere factoren. Lees hier alles over het (besparen van) stroomverbruik met een elektrische fiets.
ANWB (www.anwb.nl)
A Wh is about 0.86 calories.
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@LovesTha @KingmaYpe I dunno, the widebodies with the gargantuan turbofans are astonishingly efficient. I found figures for the A330neo as operated by Cebu Pacific (with 459 seats crammed into economy) of 250 tons takeoff weight, 1.75L/100km of Jet-A used per seat; that translates to 0.6 cal/g/km if my sums work out.
@Two9A @LovesTha @KingmaYpe Sure, but I think for my commute to work (3mi) the bike still cmes out ahead. But I am not going to able to bike to Europe.
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Fatbikes in NL take about 20 Wh/km:
Hoeveel stroom verbruikt een elektrische fiets? | ANWB
Hoeveel kWh een elektrische fiets verbruikt hangt af van meerdere factoren. Lees hier alles over het (besparen van) stroomverbruik met een elektrische fiets.
ANWB (www.anwb.nl)
A Wh is about 0.86 calories.
@KingmaYpe @markhburton Which would be 0.0086 calories per kg per km if you're a hundred kg's and jump on an ebike.
That's below the bottom of the Y-axis on this chart, by some distance.
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It's #WorldBicycleDay and a good time to mention this graph from Scientific American, first published in 1973, and updated 2025.
A person on a bike is the world's most energy-efficient mode of transport, and it's not even close. Salmon use three times as many joules/g/km to get around, and then it's jet aircraft at 5x.
@Two9A Curious that electric trains aren't mentioned, given the low friction and efficient transmission of power. Maybe because it was an abandoned transportation in the 1970s America, to support the combustion engines local industry.
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@KingmaYpe @markhburton Which would be 0.0086 calories per kg per km if you're a hundred kg's and jump on an ebike.
That's below the bottom of the Y-axis on this chart, by some distance.
Times 20, but still off scale.
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It's #WorldBicycleDay and a good time to mention this graph from Scientific American, first published in 1973, and updated 2025.
A person on a bike is the world's most energy-efficient mode of transport, and it's not even close. Salmon use three times as many joules/g/km to get around, and then it's jet aircraft at 5x.
@Two9A where do train and bus fall?
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@Two9A where do train and bus fall?
@lpryszcz Elsewhere in this thread, calculations are floating around of 0.3 cal/g/km; that'd be on the scale of an aircraft (or above that) in weight, but more energy efficient.
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It's #WorldBicycleDay and a good time to mention this graph from Scientific American, first published in 1973, and updated 2025.
A person on a bike is the world's most energy-efficient mode of transport, and it's not even close. Salmon use three times as many joules/g/km to get around, and then it's jet aircraft at 5x.
@Two9A I recall Astronomer Carl Sagan in his promotion of the bicycle as the most efficient mode of transport said that if the surface of the earth were glass (meaning very flat and smooth), lizards would have evolved wheels rather than feet. An additional element is that the power source of the bicycle and the the passenger(s) are the same, self-contained, unit, so you don't have to move around a power source, much of the drive train, container, as well as large tires to support this load in addition to the passenger, which also minimizes friction in both the wheels and airflow. Probably a key element in energy efficiency then becomes the energy subsidies in the food source, but this holds for both bicycle and other other forms of transport as people must eat to sustain themselves whether or not they ride bicycle to get around. Furthermore non-bicyclists require exercise separate from their transport to burn off stored excess energy and sustain their health which adds additional energy costs including transport to and from the gym, and even more if they don't exercise and are forced to utilize the highly energy and resource intensive medical system to keep themselves functioning. I'll note my wife is going on 88 years, riding a bicycle between 10 and as much as a hundred miles a day, despite knee problems walking.
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It's #WorldBicycleDay and a good time to mention this graph from Scientific American, first published in 1973, and updated 2025.
A person on a bike is the world's most energy-efficient mode of transport, and it's not even close. Salmon use three times as many joules/g/km to get around, and then it's jet aircraft at 5x.
if you believe wikipedia, an electric bike is 3x as efficient as a regular bike
but this suggests that the ebike and escooter numbers maybe false
Transit buses suck, per this
https://afdc.energy.gov/data/10311 -
It's #WorldBicycleDay and a good time to mention this graph from Scientific American, first published in 1973, and updated 2025.
A person on a bike is the world's most energy-efficient mode of transport, and it's not even close. Salmon use three times as many joules/g/km to get around, and then it's jet aircraft at 5x.
@Two9A I hope those are small calories. Maybe in another 52 years they can update to SI units.
Would be interesting to throw in the amortized acquisition and maintenance energy cost/km of road / bike path surfaces, and of the various vehicles, as well.
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It's #WorldBicycleDay and a good time to mention this graph from Scientific American, first published in 1973, and updated 2025.
A person on a bike is the world's most energy-efficient mode of transport, and it's not even close. Salmon use three times as many joules/g/km to get around, and then it's jet aircraft at 5x.
@Two9A pogo stick is sadly neglected these days.
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@Two9A @LovesTha @KingmaYpe Sure, but I think for my commute to work (3mi) the bike still cmes out ahead. But I am not going to able to bike to Europe.
@maccruiskeen @Two9A @KingmaYpe Riding your bike to Europe will come out ahead too, even if you only ride the bits that are on land.
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It's #WorldBicycleDay and a good time to mention this graph from Scientific American, first published in 1973, and updated 2025.
A person on a bike is the world's most energy-efficient mode of transport, and it's not even close. Salmon use three times as many joules/g/km to get around, and then it's jet aircraft at 5x.
Bicycles are the best on land, but nothing beats a sailboat for moving along without any effort.
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R relay@relay.mycrowd.ca shared this topic
