It really fucking sucks that the auto industry lobbied the US government so goddamn hard in the 30’s - 70’s and got so much of this country built on car centric infrastructure while also systemically dismantling countless forms of public transit nationwide too. Most major cities and metropolitan areas used to have a pretty comprehensive streetcar system, yet where are they now? That’s right, manufacturers like GM bought majority stakes in those companies and then had their infrastructure dismantled all in the name of “progress.”
Fuck Cars
A place to discuss problems of car centric infrastructure or how it hurts us all. Let's explore the bad world of Cars!
Rules
1. Be Civil
You may not agree on ideas, but please do not be needlessly rude or insulting to other people in this community.
2. No hate speech
Don't discriminate or disparage people on the basis of sex, gender, race, ethnicity, nationality, religion, or sexuality.
3. Don't harass people
Don't follow people you disagree with into multiple threads or into PMs to insult, disparage, or otherwise attack them. And certainly don't doxx any non-public figures.
4. Stay on topic
This community is about cars, their externalities in society, car-dependency, and solutions to these.
5. No reposts
Do not repost content that has already been posted in this community.
Moderator discretion will be used to judge reports with regard to the above rules.
Posting Guidelines
In the absence of a flair system on lemmy yet, let’s try to make it easier to scan through posts by type in here by using tags:
- [meta] for discussions/suggestions about this community itself
- [article] for news articles
- [blog] for any blog-style content
- [video] for video resources
- [academic] for academic studies and sources
- [discussion] for text post questions, rants, and/or discussions
- [meme] for memes
- [image] for any non-meme images
- [misc] for anything that doesn’t fall cleanly into any of the other categories
Recommended communities:
As far as I'm aware, the only city in the western world that truly kept its pre-automobile streetcar network was Melbourne, Australia. A result is it today has the largest tram network of any city in the world.
It hurts my soul to imagine how basically every city in North America had similar networks, but they were almost completely annihilated, save for small fragments in a small handful of cities.
Toronto, Canada has kept its streetcar network since they were horse drawn. Today the network is 83km long, or a third of Melbourne's.
I did a bicycle+light rail for a year and it took me about 2x the time to get everywhere I needed to go, but I could do it in a car centric city. You can't expect rural folks to have access to public transportation though. Suburbs are a stretch too in some areas.
Why can't we expect rural areas to have some form of mass transit? Having at least a bus system that services a rural area absolutely should be the expectation.
Because a bus that serves a town of 500 people will come once an hour, at most. Also, many people can't walk far to/from the one bus stop. Busses do not solve a problem in small towns, because there is no traffic and plenty of parking.
@[email protected], @[email protected], @[email protected]
It seems that you're all only thinking about servicing just the small town itself, and not a larger bus line that services multiple smaller towns to get them to a larger city area and back, or to each other.
The usefulness is not in traversing the rural town. It's to get the fuck out of one.
Having grown up in a rural area, here's what I think the solution would look like.
- streetcars within towns
- Roads dedicated to cars that pass next to towns, and moving the bulk of parking to a ramp just within the town limits
- "Frequent" (think once every hour) bus stops from town to town
- A train hub for the local area to desirable areas like cities
Why can't people in a 500 person town walk to the bus station? How is there traffic in them?? WHO IS PLANNING THIS
+1 to this. Buses might not be the best mode for most in rural areas, but they are an essential lifeline for those who can't or can't afford to drive.
Because at that point you're just running buses for individuals at best, but mostly running empty. You'd have to stop at every house.. It would create more emissions that it saves.
Now I can only speak for the US, but most major cities have ring roads or some sort of bypass that would be perfect for a hub and spoke sort of setup alongside them. Maybe it's just the fact that the university I went to famously has a light rail system and the concept is just embedded in me, but I'd imagine the uptake of a park and ride approach with stations out in the burbs (certainly not all of them, but laid out so that you don't need to go more than a burb or two over to reach a station) would be high enough to be worth it. Putting in some shops at the stations like an airport foodcourt would help offset building costs and whatnot to a degree over time as well. Then you could tie the hubs into other major cities in the state and you've got yourself a compelling transit system, doubly so if those cities have subways.
A benefit of starting with a park-and-ride setup is, if you have good protected bike lanes and secure bike parking, you can encourage a lot of bike and ebike trips to the transit hubs. If every suburb isn't too far from a transit hub, that makes a compelling case for bikes and ebikes as first- and last-mile solutions for a lot of people. Maybe not everyone, and maybe not overnight, but definitely for a lot of people. And any improvement is still improvement.
I understand what it means, but "last mile" is a really funny term because walking a mile is apparently inconceivable to the average american
You know, the bike wrinkle is something I hadn't even considered. That's an awesome point and all the more reason why we need to build a better transit system.
Multimodal transport is amazing. Ride bike to station - ride a fast train - ride from station to destination.
When I switched to riding my bike to work the commute was almost identical. However, I was riding in traffic and after my second close call with a car door I called it quits.
If we had dedicated bike lanes where I live I would 100% still be riding to work.
Yes, but context matters. Nobody is taking a train up the street to get groceries. And using a car (or a huge ass truck) for that is often overkill.
Bikes FTW!
I'm struggling with this average vs potential. If I stand on a 3.5m wide sidewalk on average I'm going to see 15,000 people pass me by? And there is no room for potential improvement as the sidewalks are completely full on average? And how are we figuring cars can potentially be improved by 33%? Are all cars 3/4ths full already?
I'm very pro public transit, I'm just unclear what is being shown in this chart.
They're showing capacity, i.e., a 3.5m sidewalk can move about 15k people per direction per hour. I'm guessing there's leeway for cars depending on intersection types/design, speed, etc., whereas there is much less variation in average speed for pedestrians.
Inefficient energy wise. Not timewise.
This visualization is space efficiency.
Obviously cars have terrible energy efficiency. The most efficient vehicle is a bicycle, since exercise is good for you it's arguably negative energy usage.
As for time efficiency, you have to consider car dependent development as a package. Everything spreads out, so overall there may not be an improvement in time efficiency, especially when you factor in the longer travel time of people not in cars. You could even consider the time spent working to pay for the car, or the time lost from people killed by the car, and I doubt cars would come out particularly time efficient then.
And usage of space. And money, at least if you include all the externalities.
They're measuring how many people can pass through a fixed point in space in an hour, not how long it takes one person to get from point A to point B.
So not really time or energy, but quantity.
I don't understand this visualisation. Perhaps I'm lacking context. Anybody willing to do ELI5... maybe ELI15? What quantity is being compared and what are potential passengers?
The context is that they're showing one metric among many and are hoping you'll draw the conclusion they want: that cars are an inefficient way to travel. It'd be interesting to see distance and time metrics added. For example, while pedestrian capacity is pretty large, the distance travelled for any specific time period is short, so people aren't walking somewhere 100 miles away.
Similarly, door-to-door travel time can vary a lot. Suburban commuter rail around here is fast, but you need to drive to the station (because suburbs are designed for cars), wait for a train, commute on the train, then find your way to your actual destination from the station you get off the train at, so that might include walking or public transit.
Obviously, any one of the options can make the most sense in a given situation, but the infographic isn't trying to show that.
Efficiency is not the objective. In fact, were all energy and materials used in making and powering cars from relatively renewable sources, it wouldn't be a problem. I am aware they're not. All else being equal, efficiency is a worthwhile goal. But the tradeoff for inefficiency here is the freedom to go where you want when you want.
There are places here in Europe, contrary to what some people in this community might claim, that simply cannot be accessed by train. Smaller villages and the like.
Access to a car is useful. Ownership might not be unless you live there. But cars have their place.
But cars have their place.
True. However with all the downsides of cars, they should be only the fallback if most other options don't work. As it is, in many places, they are the highest priority that everything is planned around.
Unfortunately, I'm immunocompromised, so most of these options are too high risk.
There is always exceptions and in some areas, you have to have some cars. But removing most of the cars and replacing most of the 8 lanes of traffic with alternatives would be more than enough.
Does "BRT double lane" refer to one 3.5m lane out of two, both together transporting 86k/hour due to leapfrogging efficiencies, or to both lanes together at 7m total? I think it's important to maintain consistency with the 3.5m theme!