Posted on 01/29/2009 6:58:27 AM PST by Newster
This is about renting a house in Finland and using legal and correct forms to prevent problems. Article is in Finnish.
Alla ovat Ympäristöministeriön viimeisimmät viralliset vuokrasopimus mallit. Tiedostot ovat PDF muodossa, joten ne ovat helppo tulostaa taikka tallentaa koneelle. Erittäin hyödyllisiä etenkin tehdessä vuokrasopimusta yksityiseltä yksityiselle.
Kiinteistönvälitys toimistoilla, jotka tarjoavat vuokra-asuntoja on yleensä kattavat sopimus pohjat valmiina. Mutta toki niihinkin kannattaa tutustua tarkasti ja kysyä kiinteistönvälittäjältä mikäli jokin asia askarruttaa.
VINKKI! Tallenna sopimuksen pohja tietokoneelle painamalla oikeaa hiiren nappia ja valitsemalla Tallenna Kohde nimellä.
( Sopimusmallit perustuvat ympäristöministeriön asetuksiin asuinhuoneiston vuokrasopimuksen kaavasta (537/2004) ja alivuokra-asunnon vuokrasopimuksen kaavasta (538/2004). )
Vuokra-asunto voi sitten alkaa metsästämään vaikkapa näistä lähteistä: Helsingin vuokra-asunnot, Turun vuokra-asunnot, Tampereen vuokra-asunnot, Oulun vuokra-asunnot, Joensuun vuokra-asunnot, Kuopion vuokra-asunnot sekä PK-Asunnot josta löytyy vuokra-asunto välittäjiä pääkaupunkiseudulta ja luultavasti Suomen suurin asunnon haku portaali, Etuovi com.
Internetin kautta siis löytyy vuokra-asuntoja todella hyvin ja kiinteistönvälitys yritysten suuntaus kohdentaa markkinointia Internetiin näyttää olevan entistä enemmän, mikä taas tarkoittaa kuluttajalle mukavaa tapaa selailla asuntoja kotitietokoneelta käsin.
*groan*
I know what trudging is. I don’t like it. But I would do it for some hot chocolate laced with rum and some warm chocolate chip cookies...I’d trudge all the way to Michigan for that!
:o])
I know, I was crackin up, I laugh out loud every time I see that thing LOL
Working through some computer issues...
I’d love it!
You know I would!
LOL!
See? It’s been two days, now....
It would be so nice to have you here!
Whether I proceed with the full upgrade or not is up in the air, but I'm taking advantage of the opportunity to back up the Linux box onto the house server.
You’ll get it right. I promise!
;o]
I might need your help. (Space Technology and Applications)
A robot to explore the surface of Venus will require new technologies; specifically, it will require electronics, scientific instruments, power supplies, and mechanical linkages designed to operate at a temperature above 450oC, hot enough to melt the solder on a standard electronic circuit board.Hmm. Spiderbots on Venus?
This will require devices made from advanced semiconductor materials, such as silicon carbide, or even new approaches, such as micro-vacuum tube electronics. Such materials are now being developed in the laboratory.
In addition, for a fully immersive virtual reality, high-bandwidth virtual-presence technologies will have to be developed, as well as highly capable exploratory robotics.
Our spiderbots have not yet been adapted for the high temperatures. Presumably, the high temperature alloys of rare earth elements we use in the reactors will be helpful.
What is interesting is the notion of using vacuum tubes. Even with the crushing atmospheric pressure on Venus, equivalent to being under a kilometer of ocean on Earth, properly designed glass vacuum tubes, (perhaps quartz), will allow the operation of old-fashioned radio and television equipment. One thing seems obvious; those tubes may not require filaments!
The ambient temperature may be sufficient to produce the "cloud of electrons" such as boil off from your old cathode-ray tube television or computer monitor.
On Venus, electrons would boil in vacuum without further encouragement!
(Also, Gentle Readers, let us not forget the Game aspects of these possible developments. First-person shooter in the murky fog of the Venusian Hell Planet sounds like a lot of fun!)
Eventually. One possibility is a full from-scratch install. I like the new Xubuntu 8.10 even more than 8.04 (though 8.04 meshes well with my Kubuntu 8.04). The backup is a necessary pre-requisite.
So get busy! I'm waiting! (I may have to invest in RC cars in the meantime.)
GaAs (gallium arsenide) is a good choice for semiconductors -- plus you get certain speed advantages. (Back in the late 70s we thought GaAs would take over from silicon... but it never happened.) Vacuum tubes will work too, but will need much higher cathode temperatures for efficiency -- this might be overcome by adding some radioactive materials and ensuring plenty of conductive cooling at the plate. Perhaps a solder substitute for wiring could be found -- but I'm not too certain about welding instead. (Maybe D.C. can enlighten us.)
Of course, you could bypass all that and go straight to fluidic computing, with techniques known from the early 60s. A bit slower for digital computing but various analog operations could be quite efficient. (Though it might freeze up -literally- at Earth-norm temperatures.)
Other than specific sensors and such, I’m comfortable with the notion of using vacuum tube analogs for what we want to do.
To be practical, the spiderbots will need to be functional from vacuum to considerable pressure, and from space-cold to Venusian surface hot.
That means the vacuum tubes will have to have filaments, of course, and that will be a drain on the electrical system. For that reason, I think a radioactive thermionic power system would be appropriate.
In the game scenario, the unknown opposition, tentatively called the Honue, will appear to be indigenous to the surface of Venus. Clearly, their biology would be different from ours! They could be silicon based, with an emphasis on sulfur chemical reactions.
Their base of operations would be something similar to lava tubes under the surface of Venus. Initially, we wouldn’t know how many there were, or what their technological capabilities were.
Without an ability to communicate with them, and a conflict scenario from the beginning, the point of the game would be to try to figure these things out and either defeat them or learn how to communicate.
Vacuum tube cathodes are often constructed with separate heater elements for purposes of reliability -- but consider that if their working environment changes dramatically their transconductance curves will also shift significantly. An analog computation that works at Venus norm might run off the rails in space-freeze.
I’m off to beddy-bye!
Double filaments, variable voltage depending on ambient temperatures, additional insulation, and perhaps even a thermal closet to house the electronics should provide sufficient flexibility.
Keep in mind that these robots will all be designed to function as distant analogs of human operators. Another complication will involve losing line of sight communications.
This occurs for two reasons; if the robots go underground in pursuit of their attackers, or if the atmospheric station is blown away from the landing point. Each mission will be time-critical in addition to all of its other problems.
‘Night ‘Face!
Sweet dreams of vacuum tubes, transconductance curves, and other technical arcana! *\;-)
Disclaimer: Opinions posted on Free Republic are those of the individual posters and do not necessarily represent the opinion of Free Republic or its management. All materials posted herein are protected by copyright law and the exemption for fair use of copyrighted works.