Tuesday, February 14, 2012
"Never trust a women's fashion to a man, especially an old man!"
-fumed fashion fan
what the hell is going on in fashion world? crazy old men and bunch of gay dudes leading the industry? with their boring and weird fantasies? weirder it gets, more attention you get,and you have always something to say in defense " it's either you get it or you don't" which of course no one gets in the end. It's just like a magic trick, creating an illusion to human eyes, and further planting that image to the brain, up to the point that weirdness goes away and rather start to look really cool and at its later stage it becomes normal. One thing they should keep in mind always is " there has to be some tiny little attachment to the reality" people need to wear clothes for so many reasons: 1)protection of body from outside world -cold hot wind snow rain blizzard etc 2) decoration of body, to look good 3) to convey a message about themselves whether it be a social rank or whatever...
culture plays important role in what to wear and what not to wear. pop culture pretty much allows you to wear whatever you want. Lady gaga wearing pyjama to MTV award then later it's a trend..
If you're young and female, it's in your blood to have fun with clothing
if you're guy it's most probable they make effort to look good in order to secure his social status
someone needs to bring fashion down to earth.stop this madness or disease of "fashion people"
Saturday, September 24, 2011
Vapor Pressure
Vapor Pressure and Enthalpy of Vaporization, Clausius-Clapeyron equation
Clausius-Clapeyron equation is stated below:
where P1 and P2 are any two vapor pressure measured at T1 and T2 respectively,delta Hvap is the enthalpy of vaporization, the negative sign represents its endothermic nature,R is the gas constant(R=8.3144621 j/mol*K).
Vapor pressure is best described by an example of water in a closed container. As every liquid tends to evaporate into gaseous phase,evaporated gas,once hit the ceiling of the container,condenses back into the liquid state. So, there will be an equilibrium reached once the rate at which the molecules escape liquid phase equals the rate of molecules falling back into the liquid phase. Vapor pressure is measured when the equilibrium is reached. So vapor pressure is the equilibrium vapor pressure, basically. What we call a volatile substance must have high vapor pressure. Another aspect that is associated with vapor pressure is the boiling point. High boiling point~ low vapor pressure; low boiling point~ high vapor pressure. But this relation is different from that of Temperature and Eq.Vapor pressure. Because, higher the temperature, higher the kinetic energy of the molecules,consequently, more volatile the molecules in liquid phase will become.
I forgot to mention about the boiling point and intermolecular force relation.As the intermolecular forces between the molecules are strong enough to hold them intact, it means, it will take lot of energy to break those forces and bring the liquid to evaporate(boil). So stronger the IMF, higher the BP( boiling point).
Condensation is the reverse process of vaporization. Molecules in gas phase transfers some of its kinetic energy by colliding with slower gaseous molecules and solid objects( walls of the container). If this molecule loses sufficient energy and comes in contact with the surface of the liquid, it can re-enter the liquid phase.
Clausius-Clapeyron equation is stated below:
where P1 and P2 are any two vapor pressure measured at T1 and T2 respectively,delta Hvap is the enthalpy of vaporization, the negative sign represents its endothermic nature,R is the gas constant(R=8.3144621 j/mol*K).
Vapor pressure is best described by an example of water in a closed container. As every liquid tends to evaporate into gaseous phase,evaporated gas,once hit the ceiling of the container,condenses back into the liquid state. So, there will be an equilibrium reached once the rate at which the molecules escape liquid phase equals the rate of molecules falling back into the liquid phase. Vapor pressure is measured when the equilibrium is reached. So vapor pressure is the equilibrium vapor pressure, basically. What we call a volatile substance must have high vapor pressure. Another aspect that is associated with vapor pressure is the boiling point. High boiling point~ low vapor pressure; low boiling point~ high vapor pressure. But this relation is different from that of Temperature and Eq.Vapor pressure. Because, higher the temperature, higher the kinetic energy of the molecules,consequently, more volatile the molecules in liquid phase will become.
I forgot to mention about the boiling point and intermolecular force relation.As the intermolecular forces between the molecules are strong enough to hold them intact, it means, it will take lot of energy to break those forces and bring the liquid to evaporate(boil). So stronger the IMF, higher the BP( boiling point).
Condensation is the reverse process of vaporization. Molecules in gas phase transfers some of its kinetic energy by colliding with slower gaseous molecules and solid objects( walls of the container). If this molecule loses sufficient energy and comes in contact with the surface of the liquid, it can re-enter the liquid phase.
Monday, September 19, 2011
my blueberry nights( movie review)
This is another Wong Kar Wai moody-love movie, but somewhat with an american style happy ending thrown in the end.Maybe that's because it was produced in america.I would give 7/10 in the genre of romance! This is good but not as good as the ones before. You can clearly see and distinguish the signature Kar Wai methodologies such as flashing the light from side angle and going from right to left or vice versa while the character turning his head or body in the opposite direction. Visuals are great in the movie as usual, that blueberry pie/cake/whatever melting and fusing together with milk and some yummy colorful thingy..like..u know it just looks so damn delicious it literally makes your mouth water. It wouldn't be too much to say that this movie is pretty much trademarked by that scene in my mind. Performance of the actors were great! I used to not like Rachel Weisz for no apparent reason( because she's too gorgeous,,,jealousy!!haha), but after i've seen this film, i just truly admire her as a "well-established" actress in the industry. Her husband in the movie was also a good actor too,he portrayed the character of country-boy turned local cop/happily married/divorced too well. Another one of hidden gems of Natalie Portman,she is just so productive in her own age, having played in mainstream commercial success films, anonymous commercial failures,historical,..well you name it! And she did great job on all of em too! Jude Law portrayed the same kind of characted he always does, a hopelessly romantic guy! and awfully british too!
I liked the story of the film. It's almost like you knew these people,living a real life same as you are.You feel like you can relate to these people. Again,Kar Wai is a brilliant human being, he wrote both the story and the screenplay!!!
CatPower-the greatest plays softly in the background, while the blueberry pie is being fused with rich white milk in a way that is so artistic.
My own melodrama added after watching the movie( whhaaaatt!!!)
First and last part
...crossing that road was easy after all, because the right person has been waiting for you all along...
Middle part
...pain pain and more pain
Middle part
...Learn to read people, Learn not to trust people, and Learn to trust people..
(When my hair grows back, i'll love again...
We will not be the same people again):P
I liked the story of the film. It's almost like you knew these people,living a real life same as you are.You feel like you can relate to these people. Again,Kar Wai is a brilliant human being, he wrote both the story and the screenplay!!!
CatPower-the greatest plays softly in the background, while the blueberry pie is being fused with rich white milk in a way that is so artistic.
My own melodrama added after watching the movie( whhaaaatt!!!)
First and last part
...crossing that road was easy after all, because the right person has been waiting for you all along...
Middle part
...pain pain and more pain
Middle part
...Learn to read people, Learn not to trust people, and Learn to trust people..
(When my hair grows back, i'll love again...
We will not be the same people again):P
Thursday, September 8, 2011
Chemistry
Chemistry class is going to squeeze me out this semester. There are one assessment quiz which will determine the amount of homework i'm gonna get for that week,and an examination on every friday. On one hand, it is a good thing, I will learn the concepts well enough to actually make a good use of it later. Maybe, hopefully, it will make me like chemistry a little more. But on the other hand, it's going to be loads of work including reading, online homework assignments(i'm sure there will be,for i'm not too sure if i will do well enough on those assessment quizzes to not get assigned any homework) and solving lots of of problems to be able to do well on the exams. But the important thing is that the teacher is not boring. Actually he deserves more than being rated as "not-boring". He knows what he's doing, and at least he doesn't stray off into non related topics and self-experience-talk, gosh, one teacher that i had used to just go on and on about himself. The textbook we're utilizing is by Kotz "Chemical Reactivity". Skipping the 11th chapter "Gas", we're now studying the 12th chapter " Intermolecular Forces and Liquids". There are 4 types of IMF's 1. ion-dipole force
2.dipole-dipole force
3.hydrogen bonding [Strongest IMF]
4.London force aka dispersion F [weakest IMF ; all molecules have london F]
Everything here is pretty self-explanatory. He emphasized at the beginning of the lecture that "covalent molecules are island of atoms with covalent bonds connecting them, and ionic solid is defined as extended lattice of ions with coulombic forces between them; therefore, there's not such thing as a molecule of NaCl".
Enthalpy is denoted by deltaH(hydration) and it is the sum of the internal energy in the system. When an ion dissolves in water it gives off energy. Also enthalpy depends on the distance between water molecules and ion. So bigger the atom is, less the energy given off.
Hydrogen bonds need 1.acidic H (N,F,O,Cl,I,Br)
2.basic lone pair (N,O,F)
Amazing substance WATER!!!
Also, there are extensive h-bonds in human body. All the nucleic acids in our body( DNAs and RNAs)can't exist without hydrogen bonding. DNA strand is made up of two sugar-phosphate chains are connected to each other with their bases( Adenine, Guanine, Thymine, Cytosine, Uracil in RNAs) through this essential bond.Also, all the polymers in body proteins (alpha helix beta sheets and all that...) are connected through h-bond.
London force forms when there are two non polar molecules get connected to each other with the help of induced dipole. So where is this induced dipole coming from? At any given infinitesimally small moment, electrons that are moving randomly cluster at one side of the atom, which makes it slightly charged negatively/positively on the other side; consequently, there's an attraction between the atoms.
One statement that he clearly said was " IMF is not a chemical bond" .Pretty obvious,isn't it? Righttt??
Low vapor pressure=few molecules in gas phase = high bp
High vapor pressure= lots of molecules in gas phase =low bp
Clausius Clapyran Equation (he says don't laugh at the name, but everyone did right after he said that,,haha!)
This equation helps us calculate the vapor pressure at one given time if we know the enthalpy of vaporization and vap.press at another given time.
2.dipole-dipole force
3.hydrogen bonding [Strongest IMF]
4.London force aka dispersion F [weakest IMF ; all molecules have london F]
Everything here is pretty self-explanatory. He emphasized at the beginning of the lecture that "covalent molecules are island of atoms with covalent bonds connecting them, and ionic solid is defined as extended lattice of ions with coulombic forces between them; therefore, there's not such thing as a molecule of NaCl".
Enthalpy is denoted by deltaH(hydration) and it is the sum of the internal energy in the system. When an ion dissolves in water it gives off energy. Also enthalpy depends on the distance between water molecules and ion. So bigger the atom is, less the energy given off.
Hydrogen bonds need 1.acidic H (N,F,O,Cl,I,Br)
2.basic lone pair (N,O,F)
Amazing substance WATER!!!
Also, there are extensive h-bonds in human body. All the nucleic acids in our body( DNAs and RNAs)can't exist without hydrogen bonding. DNA strand is made up of two sugar-phosphate chains are connected to each other with their bases( Adenine, Guanine, Thymine, Cytosine, Uracil in RNAs) through this essential bond.Also, all the polymers in body proteins (alpha helix beta sheets and all that...) are connected through h-bond.
London force forms when there are two non polar molecules get connected to each other with the help of induced dipole. So where is this induced dipole coming from? At any given infinitesimally small moment, electrons that are moving randomly cluster at one side of the atom, which makes it slightly charged negatively/positively on the other side; consequently, there's an attraction between the atoms.
One statement that he clearly said was " IMF is not a chemical bond" .Pretty obvious,isn't it? Righttt??
Low vapor pressure=few molecules in gas phase = high bp
High vapor pressure= lots of molecules in gas phase =low bp
Clausius Clapyran Equation (he says don't laugh at the name, but everyone did right after he said that,,haha!)
This equation helps us calculate the vapor pressure at one given time if we know the enthalpy of vaporization and vap.press at another given time.
college physics
This semester i'm retaking this college level introductory physics course. So far it's going great! I love the teacher with his enthusiasm and his sense of humor.His colleague who filled in for him in the last lecture, says about him: " He's a good teacher, and he actually gives a crap".That pretty much explains it. We're using a textbook by Giancoli, 6th edition. So the first chapter is about how they do science,and contents like scientific method(observation,theory,model,law,principle etc), standard units (SI unit),precision VS accuracy, percent error, significant figure, order-of-magnitude estimation, dimensions. On the very first day of class, the statement that i really liked, so far ignited my interest in the course was " Law in human world is prescriptive, but law in science is descriptive", which means legal law tells people how they SHOULD behave, but scientific law tries to tell how nature DOES behave. Theory is being tested over and over again, the most important feature of theory is actually testable. Law is a statement which holds to be valid over a wide range of observed phenomena, whereas principle applies to statements less general( ex: Archimed's Principle).Main SI units are m-kg-s. Accuracy (Did you hit the target?) Precision (How close did you hit the target?) :)
The concept of significant figure is little fuzzy though it'll get better once i start solving problems. Order of magnitude simply means ten to the power something (i.e, 10^-5). Dimensional analysis will help you make sure you got the correct answer by checking the unit combination.
That's it for the first two lectures. Also there's going to be a web project due at the end of the semester. The topic can be anything physics related, even a biography of any notable physicist.
The concept of significant figure is little fuzzy though it'll get better once i start solving problems. Order of magnitude simply means ten to the power something (i.e, 10^-5). Dimensional analysis will help you make sure you got the correct answer by checking the unit combination.
That's it for the first two lectures. Also there's going to be a web project due at the end of the semester. The topic can be anything physics related, even a biography of any notable physicist.
Thursday, November 18, 2010
dream series #1
There are now two realities associated with that certain image. Zevhii tsagaanaar nuuree budsan (kabuki maygiin)Ar nuruugaa garsan kimono omsson yopon huuhen, harin hajuud ni baih ter yalimgui sahaltai amerik er. Ter er busgui luu shirteh bogood gagtshuu "ah mini bn ,chinii dotor ah mini bn" gej duuldahtai uguitei busguid shivgeneh ajee. Busgui ichinguiren hartsaa dooshluulna tegsnee buh yum genetiin duut jujig musical bolj huvirana.Ted 2uul duulj garna tegeed etsest ni unseltseh bogod busgui ichinguiren dotogshoo oroy gadaa bolohgui geed nudarch bga haragdana.Yagad ch yum ter zaluu yag busguig harah mochid ahiigaa ugui bolchihsoniig(nas barsaniig)yaj ch yum medrene.madame butterfly content? Of course there is.There also was a blood, can’t really remember from where it came from, probably a segment from next dream.He was begging me to do the one last favor, phew, I was just disgusted by the idea, since I knew everything.The ugly was exposed there though.
Dreamt on 9/24-9/25
Dreamt on 9/24-9/25
Wednesday, May 12, 2010
He left no time to regret
Kept his dick wet
With his same old safe bet
Me and my head high
And my tears dry
Get on without my guy
You went back to what you knew
So far removed from all that we went through
And I tread a troubled track
My odds are stacked
I'll go back to black
We only said good-bye with words
I died a hundred times
You go back to her
And I go back to.....
I go back to us
I love you much
It's not enough
You love blow and I love puff
And life is like a pipe
And I'm a tiny penny rolling up the walls inside
We only said goodbye with words
I died a hundred times
You go back to her
And I go back to
Black, black, black, black, black, black, black,
I go back to
I go back to
manai hun ch saihan hund gar lda. nadaa yag yu ni taalagdaad bgam be gevel terend neg tiim bohoshgui gal dotor ni baidag bhaa, etsest ni ooriig ni shataagaad duusah.It's always been about her, so explicit and obvious, She gives and never takes,
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