A few weeks ago, I wrote a post comparing the Japanese immigration system to America's USCIS. Today, it is the IRS that is in my sights. My accountants just provided me with my US returns for 2013, and for the second year in a row (and completely predictably), the accountants cost more than my entire US tax burden.
How did things break down this year? My US returns were 70 pages long this year, beating out last year's 63 pages. In both years, the US collected a whopping 0.3% of my income*, a tiny tax liability I incurred either by traveling to the US on business or having some small US-source income streams that Japan didn't tax.
In contrast, my Japanese returns for the two years were 6 and 8 pages respectively, including things like cover letters. The actual returns are about as long as a 1040-EZ. The Japanese, of course, actually captured the lion's share of the taxes, around 17% of my income in both years. So just like in the immigration systems, Japan again wins hands-down in terms of simplicity and ease of complying with its laws. There is nothing like living in a true Land of the Free, rather than a false one.
...............................................................................................................................................................
*Note that payroll taxes are an entirely separate issue. I am only talking about income taxes. Fundamentally, I have a choice where to pay payroll tax, and I deliberately choose the US and participate in that system.
Friday, May 30, 2014
Saturday, May 17, 2014
Bicycle Helmet Laws
An interesting article appeared on Vox today and was followed up on Treehugger. The basic argument, which I find compelling, is that mandatory bicycle helmet laws do more harm than good, despite the rather obvious fact that helmets do indeed reduce injuries in the event of an accident. There are several major reasons for this
1: Automobile drivers have been shown to be more aggressive around cyclists with helmets (and interestingly, males) than those without helmets. This increases risks for the cyclists and partially offsets the benefit of wearing the helmet.
2: Mandatory helmet laws significantly decrease bicycle ridership. This has two negative effects
2A: Cycling is a very healthy activity. Fewer cyclists implies more heart disease, diabetes, etc
2B: Fewer cyclists on the road increases the risk for those who remain due to some combination of inferior infrastructure and lack of attention by automobile drivers, who are not used to looking for cyclists in areas with low ridership
The combination of 1 and 2B leads to the somewhat counter-intuitive result that while helmets have been clearly shown to be effective in preventing injury, mandating them does not reduce the injury rate on the population level. Add in the costs associated with 2A, and these laws actually appear to be a net negative for the public. It is generally my opinion (one that I hope most people share) that the government should only restrict peoples' freedom when there is a compelling case to do so. I just don't see how you can make a compelling case here, as it appears the non-cycling portion of the public is actually worse off, not better off, due to these laws.
One other point in the article that I found interesting was the similarity in injury rates per hour for walking, cycling, and driving. It's actually rather hard to defend a cycling helmet law without implying that pedestrians and drivers should have to wear helmets as well. Can you really imagine demanding drivers where helmets in the car, or pedestrians don them before crossing the street?
1: Automobile drivers have been shown to be more aggressive around cyclists with helmets (and interestingly, males) than those without helmets. This increases risks for the cyclists and partially offsets the benefit of wearing the helmet.
2: Mandatory helmet laws significantly decrease bicycle ridership. This has two negative effects
2A: Cycling is a very healthy activity. Fewer cyclists implies more heart disease, diabetes, etc
2B: Fewer cyclists on the road increases the risk for those who remain due to some combination of inferior infrastructure and lack of attention by automobile drivers, who are not used to looking for cyclists in areas with low ridership
The combination of 1 and 2B leads to the somewhat counter-intuitive result that while helmets have been clearly shown to be effective in preventing injury, mandating them does not reduce the injury rate on the population level. Add in the costs associated with 2A, and these laws actually appear to be a net negative for the public. It is generally my opinion (one that I hope most people share) that the government should only restrict peoples' freedom when there is a compelling case to do so. I just don't see how you can make a compelling case here, as it appears the non-cycling portion of the public is actually worse off, not better off, due to these laws.
One other point in the article that I found interesting was the similarity in injury rates per hour for walking, cycling, and driving. It's actually rather hard to defend a cycling helmet law without implying that pedestrians and drivers should have to wear helmets as well. Can you really imagine demanding drivers where helmets in the car, or pedestrians don them before crossing the street?
A typical Japanese bicycle ride
Tuesday, May 13, 2014
Why Illegal Immigrants Ignore the Law
I just received my third 3-year work visa for Japan. My Japanese wife has a permanent residency in the USA. Here is a breakdown of the costs of my three visas vs her green card:
Why do immigrants flout our rules? Because our rules are utterly ridiculous. This, and not "security porkulus in exchange for amnesty" should be what our immigration debate is about.
..............................................................................................................................................
1: Total dollars or yen spent by myself, my wife or my employer on application fees, medical or biometrics screenings, documentation, legal fees, and travel
2: Total time spent by myself, my wife, or my employer's staff
3: This results from the time gap between arrival in the US and receipt of a work permit that all family-based immigrants must endure, unless they have a work permit for independent reasons
4: Thank you, Senator Brown of Ohio and staff, for making this process "easier" than it otherwise would have been
Item
|
My
three Japanese work visas (combined)
|
Wife’s
green card
|
Dollar
cost (1)
|
$325
|
$16,000
|
Hours
spent (2)
|
30
|
200
|
Days
taken off work
|
1.5
|
30
|
Processing
time
|
8 days
(renewal) or 3 weeks (initial)
|
3-5 months
(visa) or 6-12 months (green card)
|
Pages of
documentation
|
20
|
400
|
Forced
unemployment (3)
|
0
|
4 months
|
TSA-style
security screenings
|
2
|
15
|
Very thorough
health screenings
|
0
|
1
|
Forced
international trips
|
0
|
5
|
Immigration
office visits
|
Any office,
any time within a broad range
|
Time and
place mandated by USCIS
|
Immigration
officer behavior
|
“Welcome
back” – in English
|
Hostile
questioning about technical immigration details – in English
|
Senatorial
interventions(4)
|
0
|
1
|
Times
anyone was reduced to tears upon (re)entry
|
0
|
1
|
..............................................................................................................................................
1: Total dollars or yen spent by myself, my wife or my employer on application fees, medical or biometrics screenings, documentation, legal fees, and travel
2: Total time spent by myself, my wife, or my employer's staff
3: This results from the time gap between arrival in the US and receipt of a work permit that all family-based immigrants must endure, unless they have a work permit for independent reasons
4: Thank you, Senator Brown of Ohio and staff, for making this process "easier" than it otherwise would have been
Labels:
comparison,
green card,
immigration,
japan,
USA,
USCIS,
visa
Saturday, May 3, 2014
Some Quick Thoughts on Geoengineering
Just some quick thoughts on geoengineering, the idea of mitigating climb change not by reducing our emissions, but by some less direct method such as recapturing it somehow or blocking sunlight to mitigate the warming. Topics are generally discussed in my order of preference.
...
1: Cloud seeding: The basic idea here is that clouds reflect sunlight more than land or water, thus cooling the earth. The reason I like this concept in principle is that if we had sufficient know how, we could do this in a way that mitigated droughts or other unwanted precipitation evens as well as cooled the climate. Though it would likely be expensive, it would generally be better than benign and could have a significant impact on global warming.
2: Ocean fertilization: The idea here is that much of the ocean is essentially a dead-zone due to a lack of iron in the water, which is necessary for life. Iron salt solutions would be attached to ships (probably already going about other business) and poured into the water in strategic places. This spawns plankton blooms (confirmed) which then presumably works up the food chain and ultimately sequesters carbon. Unfortunately, any carbon sequestration appears to be small and speculative, but on the other hand, if done well, we could use this to increase the biological capacity of the oceans, both increasing the amount we could harvest AND increasing the amount of life in the ocean. There is modest promise in this idea that is stupendously cheap, and it should be pursued.
3: Biochar: The basic idea here is to char plant material and use it as a soil amendment. Generally the idea is pretty sound and I don't see a whole bunch of downsides other than economic issues and a limited capacity, if managed properly.
4: Space mirrors: I divide these into two types - dumb mirrors whose only object is to block light, and smart ones which have good control over when and where the light is delivered. The first is possible with current technology but expensive. The latter is beyond us for the foreseeable future. Dumb mirrors, like any light-blocking scheme, have a huge downside - less light causes less photosynthesis, which means less life and lower crop yields. Also, it has no effect on ocean acidification and could disrupt ocean and weather patterns we rely on. To use any uncontrolled light-blocking scheme is an act of desperation. Controlled light blocking with smart mirrors, however, is something I have a hard time imagining our distant descendants not doing. Imagine moving light from the equator to the northern latitudes, making the former cooler and the later inhabitable. Imagine, using cloud seeding and the smart mirrors, turning Antarctica into an even huger block of ultra-cold ice, in order to offset rising oceans. Imagine using the smart mirrors to manipulate local weather patterns in order to ward off extremes. This is all possible in principle, but is not really relevant to solving climate change because it is still something that is far beyond our technological capabilities.
5: Light management with sulfates: This is basically the poor-man's version of dumb mirrors. It's cheap, but now you are making the air even filthier. Also, there is no meaningful method of controlling where the sulfate blocks light, so the technique cannot really evolve or improve towards being smart, as mirrors could.
6: Clean coal / carbon sequestration: Mostly a political farce. It's technically possible, but too expensive, and the sequestration is almost impossible to guarantee over long time frames. A limited amount of CO2 is and will be pumped underground in order to force out gas and oil, but the amount of demand here is trivial and by using the CO2 to extract fossil fuels, it makes the problem worse, not better. In the end, it is just thermodynamics. A coal plant would have to use a quarter of its output (at minimum in theory...in practice even more) just to compress the CO2 and put it back underground. Unless there is a pre-existing demand for CO2 nearby, which is rare, there is simply no way that this process will make financial sense vs wind, solar, or just about anything else. Also, since the plant would have to burn extra coal in order to compress and pump the CO2, it would release that much more soot, SOx, NOx, PAH's, particulates, heavy metals and all the other junk that continually comes out the smokestacks.
...
1: Cloud seeding: The basic idea here is that clouds reflect sunlight more than land or water, thus cooling the earth. The reason I like this concept in principle is that if we had sufficient know how, we could do this in a way that mitigated droughts or other unwanted precipitation evens as well as cooled the climate. Though it would likely be expensive, it would generally be better than benign and could have a significant impact on global warming.
2: Ocean fertilization: The idea here is that much of the ocean is essentially a dead-zone due to a lack of iron in the water, which is necessary for life. Iron salt solutions would be attached to ships (probably already going about other business) and poured into the water in strategic places. This spawns plankton blooms (confirmed) which then presumably works up the food chain and ultimately sequesters carbon. Unfortunately, any carbon sequestration appears to be small and speculative, but on the other hand, if done well, we could use this to increase the biological capacity of the oceans, both increasing the amount we could harvest AND increasing the amount of life in the ocean. There is modest promise in this idea that is stupendously cheap, and it should be pursued.
3: Biochar: The basic idea here is to char plant material and use it as a soil amendment. Generally the idea is pretty sound and I don't see a whole bunch of downsides other than economic issues and a limited capacity, if managed properly.
4: Space mirrors: I divide these into two types - dumb mirrors whose only object is to block light, and smart ones which have good control over when and where the light is delivered. The first is possible with current technology but expensive. The latter is beyond us for the foreseeable future. Dumb mirrors, like any light-blocking scheme, have a huge downside - less light causes less photosynthesis, which means less life and lower crop yields. Also, it has no effect on ocean acidification and could disrupt ocean and weather patterns we rely on. To use any uncontrolled light-blocking scheme is an act of desperation. Controlled light blocking with smart mirrors, however, is something I have a hard time imagining our distant descendants not doing. Imagine moving light from the equator to the northern latitudes, making the former cooler and the later inhabitable. Imagine, using cloud seeding and the smart mirrors, turning Antarctica into an even huger block of ultra-cold ice, in order to offset rising oceans. Imagine using the smart mirrors to manipulate local weather patterns in order to ward off extremes. This is all possible in principle, but is not really relevant to solving climate change because it is still something that is far beyond our technological capabilities.
5: Light management with sulfates: This is basically the poor-man's version of dumb mirrors. It's cheap, but now you are making the air even filthier. Also, there is no meaningful method of controlling where the sulfate blocks light, so the technique cannot really evolve or improve towards being smart, as mirrors could.
6: Clean coal / carbon sequestration: Mostly a political farce. It's technically possible, but too expensive, and the sequestration is almost impossible to guarantee over long time frames. A limited amount of CO2 is and will be pumped underground in order to force out gas and oil, but the amount of demand here is trivial and by using the CO2 to extract fossil fuels, it makes the problem worse, not better. In the end, it is just thermodynamics. A coal plant would have to use a quarter of its output (at minimum in theory...in practice even more) just to compress the CO2 and put it back underground. Unless there is a pre-existing demand for CO2 nearby, which is rare, there is simply no way that this process will make financial sense vs wind, solar, or just about anything else. Also, since the plant would have to burn extra coal in order to compress and pump the CO2, it would release that much more soot, SOx, NOx, PAH's, particulates, heavy metals and all the other junk that continually comes out the smokestacks.
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