Legea Reciprocității are următoarea formă: dacă cineva ne dă ceva ce ni se pare valoros, simțim dorința să dăm ceva în schimb. Asta nu înseamnă că întoarcem imediat gestul sau cadoul respectiv, ci înseamnă că ne simțim OBLIGAȚI să ne revanșăm (semnificativ este faptul că în multe limbi cuvântul ”obligat” este echivalentul lui ”mulțumesc”) [1].
Toți oamenii au sentimentul lăuntric că în orice fel de relație interumană, toți trebuie să fie în stare să răsplătească serviciile făcute unii altora.
Când vrei să influențezi, trebuie să oferi ceva de valoare pentru interlocutor, nu pentru tine. Dacă nu poți oferi ceva de valoare, mai bine nu o faci. Iar atunci când oferi, nu trebuie să ceri nimic în schimb pentru ca această lege să funcționeze.
[1] http://mix.deweekend.ro/manipulare-legea-reciprocitatii
Un alt fel de model
Aici logica este la mama ei acasă...
marți, 21 iunie 2011
vineri, 1 aprilie 2011
joi, 24 martie 2011
Ghid de... logică: Propoziţii categorice
Termenii logici pot fi folosiţi în structuri mult mai complexe, numite propoziţii.
O propoziţie categorică este o structură logico-lingvistică în care se enunţă ceva despre elementele unei clase de obiecte.
Structua acestor propoziţii este simplă: doi termeni logici sunt corelaţi în aşa fel încât ceva se spune despre ceva. Unul dintre termeni este subiectul logic (S) al propoziţiei, iar celălalalt este predicatul logic (P).
Exemple de propoziţii categorice: Toţi oamenii sunt muritori. Unele cărţi sunt interesante. Nici un căştigător nu a fost ales.
Clasificarea propoziţiilor categorice (calitativă):
Propoziţiile individuale (ex.: Elton John este un pianist celebru) sunt incluse în propoziţiile categorice.
Propoziţia de forma Numai unii S sunt P devine Unii S nu sunt P (SoP). Propoziţia de forma Numai unii S nu sunt P devine Unii S sunt P (SiP).
Propoziţia de forma Numai S sunt P devine Toţi P sunt S (SaP). Propoziţia de forma Numai S nu sunt P devine Nici un P nu este S (SeP).
Raporturile dintre propoziţiile categorice:
Universal afirmativă ------ contrarietate ------ Universal negativă
Toţi S sunt P Nici un S nu este P
| \ / |
| \ / |
subalternanţă contradicţie subalternanţă
| / \ |
| / \ |
Particular afirmativă ------ subcontrarietate ------ Particular negativă
Unii S sunt P Unii S nu sunt P
Sursa: http://en.wikipedia.org/wiki/File:Square_of_opposition.svg
(SaP -> ~SoP) A (~SoP -> SaP)
(~SaP -> SoP) A (SoP -> ~SaP)
Legendă:
"->" - implicaţie logică
"A" - "ŞI" logic
O propoziţie categorică este o structură logico-lingvistică în care se enunţă ceva despre elementele unei clase de obiecte.
Structua acestor propoziţii este simplă: doi termeni logici sunt corelaţi în aşa fel încât ceva se spune despre ceva. Unul dintre termeni este subiectul logic (S) al propoziţiei, iar celălalalt este predicatul logic (P).
Exemple de propoziţii categorice: Toţi oamenii sunt muritori. Unele cărţi sunt interesante. Nici un căştigător nu a fost ales.
Clasificarea propoziţiilor categorice (calitativă):
- universal afirmative (SaP): Toate cărţile sunt albastre. Subiectul logic este luat în totalitatea sa, iar predicatul logic este afirmat despre subiect.
- universal negative (SeP): Toţi oamenii nu sunt insecte (Niciun om nu este insectă). Subiectul logic este luat în totalitatea sa, iar predicatul logic este negat despre subiect.
- particular afirmative (SiP): Unii concurenţi au abandonat cursa. Subiectul logic este luat parţial, iar predicatul logic este afirmat despre subiect.
- particular negative (SoP): Unii oameni nu sunt cinstiţi. Subiectul logic este luat parţial, iar predicatul logic este negat despre subiect.
Propoziţiile individuale (ex.: Elton John este un pianist celebru) sunt incluse în propoziţiile categorice.
Propoziţia de forma Numai unii S sunt P devine Unii S nu sunt P (SoP). Propoziţia de forma Numai unii S nu sunt P devine Unii S sunt P (SiP).
Propoziţia de forma Numai S sunt P devine Toţi P sunt S (SaP). Propoziţia de forma Numai S nu sunt P devine Nici un P nu este S (SeP).
Raporturile dintre propoziţiile categorice:
Universal afirmativă ------ contrarietate ------ Universal negativă
Toţi S sunt P Nici un S nu este P
| \ / |
| \ / |
subalternanţă contradicţie subalternanţă
| / \ |
| / \ |
Particular afirmativă ------ subcontrarietate ------ Particular negativă
Unii S sunt P Unii S nu sunt P
Sursa: http://en.wikipedia.org/wiki/File:Square_of_opposition.svg
- Raportul de contradicţie: Se stabileşte între propoziţiile SaP - SoP, SeP - SiP. Exemplu relaţia SaP - SoP:
- Dacă SaP = 1, atunci SoP = 0.
- Dacă SaP = 0, atunci SoP = 1.
- Dacă SoP = 1, atunci SaP = 0.
- Dacă SoP = 0, atunci SaP = 1.
(SaP -> ~SoP) A (~SoP -> SaP)
(~SaP -> SoP) A (SoP -> ~SaP)
Legendă:
"->" - implicaţie logică
"A" - "ŞI" logic
miercuri, 16 februarie 2011
Timo Boll
Ce păcat... Timo Boll e doar pe locul 7 în clasamentul ITFF:
http://www.ittf.com/ittf_ranking/world_ranking_per_name.asp?Player_ID=101222&U18=0&U21=0&Siniors=1&
Site-ul lui oficial: http://www.timo-boll.de/
http://www.ittf.com/ittf_ranking/world_ranking_per_name.asp?Player_ID=101222&U18=0&U21=0&Siniors=1&
Site-ul lui oficial: http://www.timo-boll.de/
luni, 31 ianuarie 2011
Rai - Iad
Un joculeţ interesant pentru "credincioşi" (şi necredincioşi):
http://ishi.blog2.fc2.com/blog-entry-161.html
http://ishi.blog2.fc2.com/blog-entry-161.html
marți, 7 decembrie 2010
Alternativă la Fruity Loops
Un DAW software care promite multe, şi e open-source şi gratuit: lmms.sourceforge.net.
luni, 6 decembrie 2010
Argumente că Dumnezeu există
O listă de 666 de argumente foarte bune că Dumnezeu există:
http://www.godlessgeeks.com/LINKS/GodProof.htm
Genial! Enjoy!
http://www.godlessgeeks.com/LINKS/GodProof.htm
Genial! Enjoy!
miercuri, 1 decembrie 2010
Google search tips
Articol preluat de aici: http://www.mapelli.info/ultimate-google-search-tips-guide (sursa nu mai este disponibila)
Google Search Tips (Ultimate Google Guide)
The Ultimate Google Guide can help you to improve your search results and SERP analysis with less-known search Tips.
First Things First
In this Google guide I’ll show you some less-known google operators and search tips. Please note that since this advanced operators are sometimes used by spam-bot, black hat seos and other people Google does not loves, you may bump in 403-Access denied screens like the one I showed to you in my Google hates Doughnuts (and Advanced Search Strings) article.
Don’t be scared if this happens, nothing is wrong with you / your PC / your search, is just Google that is a little nervous ;)
Don’t be scared if this happens, nothing is wrong with you / your PC / your search, is just Google that is a little nervous ;)
Things to Know
- Google is not case sensitive: searching for doughnut is the same as DoughNuT
- search operators are case sensitive: searching for doughnuts OR donuts uses OR as the google operator, while doughnuts or donuts does not.
- Google default is to search for pages that include all of your search terms. Also the order of your search term is somehow relevant.
- Google excludes common words (also called stop words) like “I” , “the” etc.
- some operators can be combined, while others must be used alone.
Basic Operators
+
forces words to be included in search results. Useful with stop words that otherwise will be discarded
-
prevents a search term to show in results, for example searching for doughnut -cream can help you to avoid creamy doughnuts
OR
returns documents with one of the given terms, like doughnut OR donut. You can also use | instead of OR: doughnut | donut
” “
using quotes forces google to search for the exact phrase (including stop words), try “doughnut at midnight” and doughnut at midnight (actually, using quotes is similar, but not equals, to doughnut-at-midnight … it would be interesting to know what is the exact difference in SERP)
~
allow to search also for synonyms of the given word. searching for doughnut ~tips finds also pages with the word help or guide etc.
*
means every word. try “doughnuts with *”
..
Used to search in a range of numbers, “2..20 doughnuts” will find pages containing “I eat 3 doughnuts a day” and “I’ll never eat more than 15 doughnuts in a month”
This operators can be combined to create advanced queries, for example “I eat 1..100 doughnut OR doughnuts OR donut OR donuts each *”
Advanced google operators
daterange:
Returns documents modified in the given time interval. Dates should be entered in julian format (so geeky, but a bit unusable).
Using doughnuts daterange:2454091-2454101 you can find who talked about doughnuts in the last ten days of 2006 :)
Using doughnuts daterange:2454091-2454101 you can find who talked about doughnuts in the last ten days of 2006 :)
filetype:
returns links to documents with the given file type.
For example searching for doughnuts filetype:java will find portable and object-oriented doughnuts.
Currently officially supported file types are pdf, ps, wk1, wk2, wk3, wk4, wk5, wki, wks, wku, lwp, mw, xls, ppt, doc, wks, wps, wdb, wri, rtf, swf, ans, txt, but other are supported as well, like xml, cpp, java etc.
For example searching for doughnuts filetype:java will find portable and object-oriented doughnuts.
Currently officially supported file types are pdf, ps, wk1, wk2, wk3, wk4, wk5, wki, wks, wku, lwp, mw, xls, ppt, doc, wks, wps, wdb, wri, rtf, swf, ans, txt, but other are supported as well, like xml, cpp, java etc.
site:
restricts the results to the given domain. site:mapelli.info will find all indexed page on www.mapelli.info, while site:mapelli.info doughnuts will find all doughnuts-related pages on www.mapelli.info .
update: you can use the site operator also to find your supplemental results using this query: site:www.mapelli.info *** -sljktf. (taken from an intresting article about Google Supplemental Index Results by Aaron Wall)
update: you can use the site operator also to find your supplemental results using this query: site:www.mapelli.info *** -sljktf. (taken from an intresting article about Google Supplemental Index Results by Aaron Wall)
cache:
shows the cached version of given webpage. Other words in the query will be highlighted in the returned page, try cache:www.mapelli.info doughnuts
link:
lists webpages that link to the given webpage. link:http://en.wikipedia.org/wiki/Doughnut will list webpages with links pointing to wikipedia’s voice for Doughnut
related:
returns pages that google somehow thinks are related to the given page. Not always accurate.
info:
returns some informations about the given web page. Typically website and description.
define:
returns the definition of a given word. Try define:doughnuts (in case you are an alien and you don’t know what a Doughnut is )
phonebook:
search in residential phone book. sample: phonebook:smith Los Angeles
stocks:
returns stock info: try stocks:goog
weather:
weather informations for the given city. weather:los angeles
movie:
returns all movies related to the search term given. Sample: movie:doughnuts
You can also find movies by locations: movie:nyc , movie 10015
You can also find movies by locations: movie:nyc , movie 10015
flights
you can search for flights inside USA using the airport code (does not work for every airport). sample:jfk lax
SEO-oriented Operators
allintitle:
Search for documents with the given words in their title. allintitle:doughnuts chocolate will find all the documents with title containing ‘doughnuts’ and ‘chocolate’. This operator cannot be combined with others.
intitle:
Search for documents with the first word after the intitle operator in their title. intitle:doughnuts chocolate will find all the documents with title containing ‘doughnuts’ and talking about chocolate. Note that the word ‘chocolate’ is not necessarily in the title.
allintext:
Search for documents with the given words in their text. allintext:doughnuts chocolate will find all the documents with text containing ‘doughnuts’ and ‘chocolate’.This operator cannot be combined with others.
intext:
Search for documents with the first word after the intext operator in their text. intext:doughnuts chocolate will find all the documents with text containing ‘doughnuts’ and talking about chocolate. Note that the word ‘chocolate’ is not necessarily in the text
allinurl:
Search for documents with the given words in their url. allinurl:doughnuts chocolate will find all the documents with url containing ‘doughnuts’ and ‘chocolate’. This operator cannot be combined with others.
inurl:
Search for documents with the first word after the inurl operator in their url. inurl:doughnuts chocolatewill find all the documents with url containing ‘doughnuts’ and talking about chocolate. Note that the word ‘chocolate’ is not necessarily in the text
allinanchor:
Search for documents with the given words in an anchor. allinurl:doughnuts chocolate will find all the documents with anchor text containing ‘doughnuts’ and ‘chocolate’. This operator cannot be combined with others.
inanchor:
Search for documents with the first word after the operator in an anchor. inanchor:doughnuts chocolatewill find all the documents with anchor containing ‘doughnuts’ and talking about chocolate. Note that the word ‘chocolate’ is not necessarily in an anchor.
Google Calculator Guide
+ – * / % ^
you can use Google as a calculator, using standard symbols, for example
3+2 returns 5
4-1 returns 3
6*8 returns 48
15/5 returns 3
3^2 returns 9 (3 raised to power 2)
5%2 returns 1 (the remainder after division)
3+2 returns 5
4-1 returns 3
6*8 returns 48
15/5 returns 3
3^2 returns 9 (3 raised to power 2)
5%2 returns 1 (the remainder after division)
sqrt,nth root of x
sqrt(49) returns 7, if you need non-square roots you can use for example 3th root of 27.
sin, cos, arctan, tan…
google calculator supports various trigonometic functions, expecting a radians value, that can be expressed also using the pi constant: sin(pi/2), tan (2/3*pi)
ln
returns natural (base e) logarithm: ln(e^5)
log
returns base 10 logarithm: log(100)
!
returns n factorial: 3!
Numbers can be entered also in hexadecimal, octal and binary base, using 0x, 0o and 0b prefixes, for example 5 +0xf+0b1001
Conversions
Google supports a lot of conversion tools, here is a small guide:
in degrees / in radians
you can convert radians to degrees: pi/2 in degrees or convert degrees into radians: 90 degrees in radians
in hex / in binary / in octal / in decimal
you can convert to each of the given bases: 16 in hex , 16 in octal, 16 in binary, 0×11 in decimal
you can also use 2007 in roman numerals (in case you’re building a temple and you need to know how to write the year on it)
you can also use 2007 in roman numerals (in case you’re building a temple and you need to know how to write the year on it)
distance conversions
you can use 100miles in km , 1m in mm, but also 200000 km in light-second etc.
speed, time, temperature
currency
cooking
There are a lot of others possible conversions, just try! :)
Blogsearch
Have a look at my google blogsearch tips
Resources
LaTeX în Blogger (blogspot)
Pentru a posta ecuaţii matematice în Blogger (blogspot), cea mai uşoară metodă este să folosiţi CodeCogs. Paşii sunt următorii:
- Accesaţi editorul LaTeX online de la CodeCogs;
- Scrieţi ecuaţia LaTeX;
- Copiaţi codul HTML generat de la sfârşitul paginii;
- Faceţi paste în postarea nouă ("Editaţi Html").
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