Instead of ending it, just address the problem. I’m no city designer, but seems like a button triggering a flashing light or something might be enough. It also seems like bikers would be pretty tuned into people crossing at the stops already.
The only difference I see is instead of crossing a highspeed car lane, one would cross a slow speed cycling lane designed with the intent to protect individuals on bicycles.
Cyclists travel at speeds they can easily slow down or stop if some blind person walks into the lane, sighted people do it all the time anyway. The typical long sight lines give plenty of time for a cyclist to spot someone sporting a red and white cane.
“We don’t have any evidence at this time that there is an injury collision problem."
Towards the end of the video he addresses the point that the optimum speed of cars is around 60(or I thought it was 70).
This argument doesn’t apply here because that figure is for a car traveling at a constant speed on a straight, flat road with no wind. E.g. a freeway/motorway. In a city, a significant amount of the energy is used to speed up and slow down at intersections.
Remember the kinetic energy formula, Ek=1/2 mv^2 . That tells you that accelerating a car to twice the speed takes 4 times the energy, or in other words it takes 4 times as much fuel to get to 60 as it does to get to 30.
This extra energy to get up to speed is going to far outweigh any benefit from less rolling resistance at 60 compared to 30.
fwiw, Lemmy actually supports both subscript and superscript, though the syntax is a little weird if you’re used to Reddit. ~text~ is subscript, ^text^ is superscript. (Unfortunately support on mobile clients—even Jerboa, made by the official Lemmy devs—is rather lacking.)
Ek=1/2mv^2^
But yeah, that’s a really good point. I wonder how long you’d have to be travelling at 60 km/h to make that extra acceleration worth it in terms of fuel efficiency.
As a separate question: people would probably often be willing to sacrifice their fuel efficiency if it meant substantially shorter travel times. I wonder how much this would actually work. On highways it’s definitely going to be a huge factor, but on the sorts of inner-city stroads that are usually posted at 60 km/h, I suspect you’ll probably arrive at most of the same red lights accelerating up to 40 km/h as someone getting all the way up to 60 would. Would be an interesting experiment to conduct.
I myself come from a background in network security which maybe colors my thinking, but there is a sort of quirk/feature that nobody ever argues for less security, only more. Basically this means you are always at the intersection of usability and and security. It is, however, usually clear what “usability” means in a given context.
So the question that lingers in my mind is this: how do you find the sweet spot for roads? The video says, and I agree, that people putting their convenience above the safety of others is an asshole. But how do you avoid the reducto ad absurdum that is mentioned AND THEN TOSSED OUT WITHOUT COMMENT where further decreasing speed always increases safety by some margin?
Where is the Pareto optimal point and how do you find it? If everyone goes 5kph, one guy a year is going to die. Are we really just trying to find maximum throughput per person per unit space? Is it maximal throughout with minimal infrastructure? What is the actual problem (generally) to solve here? There’s discussion AROUND the topic (about 2/3 through the video) but it’s all special case. Would be easier if there was a theme besides “hey go slower asshole”.
I don’t think he tossed it out completely without comment. He simply pointed to the graph and said (or at least implied) “yeah you can keep decreasing it if you drop speed further, but this is the point at which it seems the return on investment starts significantly decreasing”.
I get the impression from your comment that this is the first NJB video you’ve come across. It might seem strange in that context. But this is one piece in a large history of discussing what makes good road safety, urban infrastructure, and city planning. For example, one thing that he didn’t really discuss in this video but has mentioned many times before is how the most effective way to slow down drivers is actually not just lowering the speed limit, but changing the design of the road to make drivers feel unsafe driving at higher speeds. Things like objects near the side of the road, narrowing the road, making it less straight, making corners at intersections sharp right angles rather than smooth curves, etc. And this video doesn’t talk at all about the importance of infrastructure that encourages cycling outside of merely lower speed cars.
The “goal” is…complicated. Because there are a whole bunch of different factors that reinforce each other in a virtuous way. Safety, happiness, health, economics. Good urban design is good for all of them and more. Even just lowering the speed limit increases the safety for cyclists, which increases the rate of cycling, which is good for health, environment, government budget, and small businesses’ bottom lines.
Note: this is copy/pasted from my comment on the Nebula version. Time codes might be slightly off.
The stock clip used at 3:20 involving a driver unabashedly on their phone is brilliant.
The 5:45 clip of a dude in a bigfoot costume cycling through Tokyo was unexpected.
6:00 the self-shout-out had me laugh out loud.
The idea of lowering local street speed limits not actually making your trip take much longer is so true. Brisbane-based cycling safety advocate Chris Cox has a video where he gives a demonstration. He drives the same route twice, once sticking to 30 km/h on the local streets, and once trying his best to get up to the speed limit of 50 km/h on those streets. (Driving to the predominantly 60 km/h speed limit on arterial roads.) The video on the whole is actually incredibly similar to this one, down to the safety/speed curve, the FOV comparisons, and the dismissal of the ridiculous arguments against 30 km/h. Because yeah, Jason’s words in the conclusion to this video are so right: the data is really, really, really clear here; at some point we have to realise that anybody fighting against lower speed limits within cities is either wilfully ignorant or they’re a selfish arsehole who values their convenience more than other people’s safety. But here’s a timestamped link to the bit of Chris’s video where he starts his experiment. It took a whopping 9 extra seconds. 9 seconds, on a 10 minute journey.
The stock clip used at 3:20 involving a driver unabashedly on their phone is brilliant.
The 5:45 clip of a dude in a bigfoot costume cycling through Tokyo was unexpected.
6:00 the self-shout-out had me laugh out loud.
The idea of lowering local street speed limits not actually making your trip take much longer is so true. Brisbane-based cycling safety advocate Chris Cox has a video where he gives a demonstration. He drives the same route twice, once sticking to 30 km/h on the local streets, and once trying his best to get up to the speed limit of 50 km/h on those streets. (Driving to the predominantly 60 km/h speed limit on arterial roads.) The video on the whole is actually incredibly similar to this one, down to the safety/speed curve, the FOV comparisons, and the dismissal of the ridiculous arguments against 30 km/h. Because yeah, Jason’s words in the conclusion to this video are so right: the data is really, really, really clear here; at some point we have to realise that anybody fighting against lower speed limits within cities is either wilfully ignorant or they’re a selfish arsehole who values their convenience more than other people’s safety. But here’s a timestamped link to the bit of Chris’s video where he starts his experiment. It took a whopping 9 extra seconds. 9 seconds, on a 10 minute journey.
Freedom of movement is not just freedom to drive a car, in fact, car ownership is extremely expensive and you have to sit in traffic a lot. Rather, it’s about going where you want to, when and how you want to. About walkable cities and affordable or free and abundant options for public transit. Therefore, the suburbs in America are less ‘free’ than the 15-minute city (source: The Netherlands has a LOT of 15-minute cities, and they’re really nice to live in, even without a car!
No idea, but the rule is a 2 staircase requirement. All building 2 floors and higher in most of Canada and US must require 2 staircases which means that they take up more room in a building and limit the possible room configurations in the building as well. The reason for 2 staircases is because of the increased fire hazards US and Canadian homes faced due to using wood for home construction unlike in Europe where extremely fire resistant materials are used. The host indicates that fire deaths have dropped significantly because of fire retardant technology throughout US and Canadian homes that makes the 2 story rule pointless for home less than 6 stories tall.
First of all, if you don’t wanna watch it, you could just…not watch it? No need to vice signal by announcing it to the whole world.
But second, you don’t pay for Nebula to watch this one video. You pay for Nebula as a way to support the dozens of creators on the platform, including many of the best urbanist channels including the one whose community you are currently visiting. And to get this and all the other Nebula-exclusive videos on the platform, most of which are merely addendums to public YouTube videos, but some of which are full exclusives. And to get all the videos ad-free.
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