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Dec. 20th, 2007
Approaching crotchetiness
Dec. 20th, 2007 02:04 pmI was watching some show about the construction of a grand religious edifice when I found myself increasingly angry that the minute surpluses generated by the peasants of the Middle Ages were wasted on a cathedral. What a tremendous waste of human lives. There had to have been some other use for all that effort, one that would have had a tangible benefit to the peasants.
Approaching crotchetiness
Dec. 20th, 2007 02:04 pmI was watching some show about the construction of a grand religious edifice when I found myself increasingly angry that the minute surpluses generated by the peasants of the Middle Ages were wasted on a cathedral. What a tremendous waste of human lives. There had to have been some other use for all that effort, one that would have had a tangible benefit to the peasants.
Approaching crotchetiness
Dec. 20th, 2007 02:04 pmI was watching some show about the construction of a grand religious edifice when I found myself increasingly angry that the minute surpluses generated by the peasants of the Middle Ages were wasted on a cathedral. What a tremendous waste of human lives. There had to have been some other use for all that effort, one that would have had a tangible benefit to the peasants.
It's a bouncing baby sprain
Dec. 20th, 2007 10:20 pmSo I get a splint for the next month or so.
In other news, I woke up with the realization that if I took the perfectly good straps off a discarded CPAP mask that I have and replaced the bad straps on the otherwise perfectly good mask that I have, I could avoid having to buy a new mask.
In other news, I woke up with the realization that if I took the perfectly good straps off a discarded CPAP mask that I have and replaced the bad straps on the otherwise perfectly good mask that I have, I could avoid having to buy a new mask.
It's a bouncing baby sprain
Dec. 20th, 2007 10:20 pmSo I get a splint for the next month or so.
In other news, I woke up with the realization that if I took the perfectly good straps off a discarded CPAP mask that I have and replaced the bad straps on the otherwise perfectly good mask that I have, I could avoid having to buy a new mask.
In other news, I woke up with the realization that if I took the perfectly good straps off a discarded CPAP mask that I have and replaced the bad straps on the otherwise perfectly good mask that I have, I could avoid having to buy a new mask.
It's a bouncing baby sprain
Dec. 20th, 2007 10:20 pmSo I get a splint for the next month or so.
In other news, I woke up with the realization that if I took the perfectly good straps off a discarded CPAP mask that I have and replaced the bad straps on the otherwise perfectly good mask that I have, I could avoid having to buy a new mask.
In other news, I woke up with the realization that if I took the perfectly good straps off a discarded CPAP mask that I have and replaced the bad straps on the otherwise perfectly good mask that I have, I could avoid having to buy a new mask.
Toshiba has [allegedly] developed a new class of micro size Nuclear Reactors that is designed to power individual apartment buildings or city blocks.
Seen via talheres
[Developed appears to mean "have a design but not an actual reactor]
[200 kW seems a bit powerful for a city block, at least one with homes on it. The average American household uses about 11,000 kW-hrs a year, according to the first site I found, which if I've done the math right is about 1300 Watts. 200 kW would power about 150 households. Looking at it another way, assuming three people per household, you'd need about 450 of these for Kitchener and once the system was mature, you'd be replacing about a dozen a year on average (One hopes that it doesn't work out so that the replacement rate is nearly zero until about 40 years after the reactors showed up, at which point it zooms up to nearly 100%)]
Seen via talheres
[Developed appears to mean "have a design but not an actual reactor]
[200 kW seems a bit powerful for a city block, at least one with homes on it. The average American household uses about 11,000 kW-hrs a year, according to the first site I found, which if I've done the math right is about 1300 Watts. 200 kW would power about 150 households. Looking at it another way, assuming three people per household, you'd need about 450 of these for Kitchener and once the system was mature, you'd be replacing about a dozen a year on average (One hopes that it doesn't work out so that the replacement rate is nearly zero until about 40 years after the reactors showed up, at which point it zooms up to nearly 100%)]
Toshiba has [allegedly] developed a new class of micro size Nuclear Reactors that is designed to power individual apartment buildings or city blocks.
Seen via talheres
[Developed appears to mean "have a design but not an actual reactor]
[200 kW seems a bit powerful for a city block, at least one with homes on it. The average American household uses about 11,000 kW-hrs a year, according to the first site I found, which if I've done the math right is about 1300 Watts. 200 kW would power about 150 households. Looking at it another way, assuming three people per household, you'd need about 450 of these for Kitchener and once the system was mature, you'd be replacing about a dozen a year on average (One hopes that it doesn't work out so that the replacement rate is nearly zero until about 40 years after the reactors showed up, at which point it zooms up to nearly 100%)]
Seen via talheres
[Developed appears to mean "have a design but not an actual reactor]
[200 kW seems a bit powerful for a city block, at least one with homes on it. The average American household uses about 11,000 kW-hrs a year, according to the first site I found, which if I've done the math right is about 1300 Watts. 200 kW would power about 150 households. Looking at it another way, assuming three people per household, you'd need about 450 of these for Kitchener and once the system was mature, you'd be replacing about a dozen a year on average (One hopes that it doesn't work out so that the replacement rate is nearly zero until about 40 years after the reactors showed up, at which point it zooms up to nearly 100%)]
Toshiba has [allegedly] developed a new class of micro size Nuclear Reactors that is designed to power individual apartment buildings or city blocks.
Seen via talheres
[Developed appears to mean "have a design but not an actual reactor]
[200 kW seems a bit powerful for a city block, at least one with homes on it. The average American household uses about 11,000 kW-hrs a year, according to the first site I found, which if I've done the math right is about 1300 Watts. 200 kW would power about 150 households. Looking at it another way, assuming three people per household, you'd need about 450 of these for Kitchener and once the system was mature, you'd be replacing about a dozen a year on average (One hopes that it doesn't work out so that the replacement rate is nearly zero until about 40 years after the reactors showed up, at which point it zooms up to nearly 100%)]
Seen via talheres
[Developed appears to mean "have a design but not an actual reactor]
[200 kW seems a bit powerful for a city block, at least one with homes on it. The average American household uses about 11,000 kW-hrs a year, according to the first site I found, which if I've done the math right is about 1300 Watts. 200 kW would power about 150 households. Looking at it another way, assuming three people per household, you'd need about 450 of these for Kitchener and once the system was mature, you'd be replacing about a dozen a year on average (One hopes that it doesn't work out so that the replacement rate is nearly zero until about 40 years after the reactors showed up, at which point it zooms up to nearly 100%)]