The point he makes is correct of course, but the way he does the comparison is not very honest. If he wants to compare to the maximum capacity of a tube train, he'd also have to take the maximum capacity of a car, not the average passengers.
Average speed yes, but I doubt anyone is doing 8mph.
It's likely they drive closer to 20 mph (needing a larger safe distance) then stop at lights (needing no safe distance, but probably 3-5m if you have the driving school of thought to be able to have an exit at all times). Then there is all the space occupied by the intersections themselves. These would further space out cars, bringing the average length of X cars higher.
These are all guesses based on my local knowledge, I have been to London in close to a decade, and I did not drive there.
I dont disagree at all, just pointing it out. The speed limit on most roads in London now is 20mph. I live 18 miles from the centre and drive for work to various different places there most days. Unfortunately, public transport is not an option for me as I need to carry an array of tools and spares with me, so a van is the only option. Traffic jams are frequent due to the age of the road network and the pinch points created by such places as river crossings and of course, probably unnecessary school runs.
Generally guidance for "safe" following distance is to be able to stop before you hit a car that is also stopping with the assumption that the car ahead is stopping at the same rate. So 2 seconds of headway between cars (roughly reaction time alone). Obviously this does not give enough time if the car ahead has a head on collision or similar (but the third car will collide at lower speed and the fourth might stop).
Most traffic is a little closer together than this (hence the prevalence of pile ups), but there is also uneven speed and gaps at traffic lights and similar
Sure, but only because they aren’t moving. It should be about the distance traveled in a couple seconds. Less then that and you get a lot of wrecks, so brand new problems.
It definitely depends on the country you're visiting. The tube trains (and stations) in Paris are generally pretty gross but when I was in Copenhagen recently I was surprised by how clean everything was over there.
The UK is falling apart because of 13 years of Tory rule delivering us austerity, Brexit, corruption and mismanagement. Things are starting to look worn down from underinvestment.
That was my guess. Shame, really. Most people I met were lovely, and the cities themselves seemed nice enough to walk around (London less so, too big and spread apart for that). Hope amounts to nothing, but I goddamn hope y'all kick them tories out sooner rather than later. Recent headlines from the UK kinda worry me.
The dirty/worn out trains are old, but also ate getting replaced... The circle, district and metropolitan lines have fairly nice trains and the trains on the victoria and jubilee are just fine... The bakerloo having 50 year old worn out trains is a problem well over 13 years old, and the fact that their replacements were organised under tory leadership is directly at odds with what you're saying but I take it you'll give all the credit to the Labour PM when the new trains do arrive?
I'm not in favour of the tories or austerity any more than the next guy, but misrepresentation like this is just gonna make it worse as nobody takes note when they do anything actually good, so they go elsewhere to win votes
When you increase the number of passengers on a train(e.g. rush hour), the volume doesn't increase. The size of the train stays fixed up until it hits capacity.
When you increase the number of passengers on a road, they tend to still have around 1 car/person. Encouraging people to carpool just doesn't really happen. So an "at capacity" road still has most cars with just the driver. This is one of the main reasons cars are so inefficient, people are lugging around capacity for 5 people and tons of cargo, but it never gets used even when the roads are "at capacity".
Trains are generally at their fullest when cars are at their emptiest, during commuter hours. Tube trains are near empty (maybe 10-15% of capacity) for most of the day and night, whereas those who do drive at those times are likely groups of workmen or otherwise groups of people going to the same place
Trains are generally at their fullest when cars are at their emptiest, during commuter hours.
If that's true, then we are obviously comparing like-for-like: busy train commute time, busy car commute time. Which makes it a completely fair and representative comparison. "This isn't fair because what about when no one is commuting?" is a weird complaint.
That said, I'm skeptical that for most of the day trains are "near empty" and that for most of the day cars are "likely full of groups of workmen". Do you have a source for that?
If I were to say "at 3am, almost all grocery stores are empty, yet almost all houses are occupied, so look how much land is being wasted by grocery stores" would that be fair and representative, or picking and choosing a time to suit what I'm trying to say?
Even if we do pick and choose in favour of cars, the train is still probably more space efficient even with only around 30-50 people on board so why put yourself in a position where you can be rightfully called out as misrepresentating the data?
For the last part, have you been to London? Outside of 7:30-9:30 and 16:30-20:00 you're pretty much guaranteed a seat anywhere on the network - when you consider that 27% of the capacity of a piccadilly line train is seating, I would call a train that's 10-25% full near empty in the same way that a car with 1 person in would be near empty... And if you look at the streets of London during the day, it's all taxis and vans, generally the taxis are a mix of families and people alone, leaning towards families as it makes more sense financially to get one the more of you there are, and the vans generally have groups of people who are using them for work
Completely honest! All cars are at least 4.5m, especially in the city where hatchbacks like the golf (4.2m) reign supreme. And what driver doesn't love driving in bumper to bumper traffic, named for the more than two full car lengths between them and both the car in front and behind.
Not to say that the point they are dishonestly trying to make is invalid, but this is definitely playing with assumed numbers to exaggerate the point.
ah yes, the 0.3 meters difference in car length makes this completely "dishonest". Throw the whole thing out because they used 4.5 instead of 4.2.
I don't even get your point about car following distance. A line of totally immobile cars bumper to bumper is illustrative of nothing. Using the ideal scenario for car storage is hardly "more honest". I have no idea what is motivating all this weird nitpicking.
ah yes, the 0.3 meters difference in car length makes this completely "dishonest". Throw the whole thing out because they used 4.5 instead of 4.2.
If it was paired with a second data point that was honest then obviously not, but when it provides two metrics and both are exaggerated to embellish the claim then it clearly isn't trying to be even handed.
I don't even get your point about car following distance. A line of totally immobile cars bumper to bumper is illustrative of nothing. Using the ideal scenario for car storage is hardly "more honest". I have no idea what is motivating all this weird nitpicking.
Are you kidding me? Two full car lengths each side is unheard of even on an Autobahn in heavy traffic. This is by far the most disingenuous claim - it alone literally approximately quadruples the distance the cars require. Heavy traffic in city streets should approximate something like 1m each side (half a car length total). Obviously a fully loaded train is orders of magnitude better either way, but an honest comparison wouldn't overstate the length required for the cars by a multiple of 4.
This comparison is about road capacity, not car capacity.
During rush hour there are more cars on the road, there are not more people in each car. Unlike a metro. Every car at max capacity is an unrealistic scenario, whereas a full metro certainly is not.
No because on a busy time of the day it's not hard to reach maximum capacity or close to maximum capacity on a train. But if those individuals decided to drive they would not use their cars to maximum capacity. Or you can look at it the other way around. If people driving right now (therefore the average use) started to use the train, they would not use the train up to its average use. They would use it to its maximum capacity.
Eh I'm not so sure I agree with that. Competent subway systems in rush hour tend to be completely full whereas cars in rush hour typically only have a single person inside. So I do believe it's an apples-to-apples comparison in the ways that actually matter.
Agreed its not very honest. Transportation is about getting places, not filling roads. Average speed of the tubetrain is more than double that of cars, even without dumping all of these extra people onto the roads. After accounting for that, you would need to quadruple the length so that it can match the passenger miles.
At rush hour, you will see full trains and streets full of cars with only one person in each. Cars don't fill up when it gets busy, but trains do.
There's breaking distance for 20mph traffic, and trains actually do run at 90 second intervals.
You can change trains if the one you're on doesn't match your route, or combine it with other modes. But that isn't what this comparison is about, it's about the space they take up.
This is extremely stupid because, to be an accurate model of the effect of congestion on rail travel, people would have to get out of their car, perform a magic trick to disappear it, and then hop into a stranger's car every time they entered a congested area.
Given that nobody has ever done this, we can see that your comment is just bizarre mental gymnastics.