變幻才是永恆 = 世界是線性?

羅文唱的「家變」中的歌詞提及到「不必怨世時變,變幻才是永恆」,表達了一個很大膽的理論: 「世界是線性的」,這是學術界不可思議的一大奇聞。如果世事真的是線性,那麼股市只可以永遠不停地上升,下降,或停滯。從微積分學中,我們可以看到為何如此簡單的一句歌詞醞含著那麼大的玄機:

我們先以 f(x) 代表世界的事情, x 陣列代表可變的事物,K 是永恆不變的固定數,那麼世事變幻便是 f'(x)。「變幻才是永恆」亦即譯作 f'(x) = K,把恆等式的兩邊積分,我們便得到 f(x) = Kx + C,不用多說,C 當然是隨意常數。從此可見世界是線性方程式!

– Sep 17, 2005

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喼神 Paul Ho (God of Briefcase) PAUL HO's unHOLY QUOTATIONs

PAUL HO’s unHOLY QUOTATIONs (All in Chinglish/English because SPC is an EMI school)

  • Open the door and see the mountain (翻譯: 開門見山)
  • There is a Chinese saying … (翻譯: 俗語有話…)
  • Don’t put your hands under your desk. People might think you are playing some toys.
  • Why you should not put your hands in your pocket?
    People might think that you are having a lucky draw.
  • Why you should not put your hands under your desk?
    People might think that you are playing some toys.
  • Detention Club: Lifetime membership
  • Fishing Club (上堂釣魚/こっくり)
  • Mr. Tso, a poet who can make a poem in seven steps (翻譯: 七步成詩)
  • ICAC might stand for “I Can Accept Cash” (When he taught EPA)
  • The term “tertiary industry” (三級工業) might have a better Chinese translation…
  • ICAC might stand for “Ice-Cream And Coca-cola”
  • ICAC might meant “I Can Accept Cheques”
    (I overused his “I can accept cash” in his Econ class, so he changed it to checks)
  • Good Family Education (有家教)
  • If someone is not happy with you, they’ll say hello to your family(問候你全家).
  • If you use credit card in King Fu, they might say hello to your family(問候你全家).
  • People don’t cry until they see the coffin (翻譯: 唔見棺材, 唔流眼淚)
  • Lots of St Pauls boys go to HKU……………………….for lunch
  • Kill the monkey to warn the chicken (殺雞警猴)

編者的話: 喼神雖然係懶,但佢嗰種老狐狸智慧喺一般學校裡面唔會學到。教得唔好唔緊要(喺聖Paul度讀都予咗至少一半係咁,自己執生係一門必修課),最緊要係佢唔煩唔管小事。喼神口賤(尤其係sarcasm)嘅功力超深,我喺佢身上學到唔少。如果你能豁開要佢教econ嘅期望,俾佢教都幾頂癮。

我認為係聖Paul教書嘅先生,教得好唔好唔係最大嘅問題; 最重要嘅係識唔識得同學生相處,同埋醒唔醒目。聖Paul嘅學生一般都唔會因為你係學校教書嘅就尊重你,都係要靠自己嘅真才實料(人際技巧係其中之一)贏返嚟。好似龍捲風呢啲得把口講,同埋超叔呢啲無自知之明嘅低B動物,要贏得聖保羅學生嘅尊重起碼要等多十世。我承認間中有啲學生會去認同啲無料到但好努力嘅先生,但我唔會咁做。

總而言之,係聖Paul教書都咪話容易,好多時都要睇天份。好似Ms Wai呢啲遲到早退嘅,偏偏係有料之人。佢火爆嘅脾氣反而教曉我有時對人好口啲好多時會幫你逢凶化吉。仲有我F.1俾飛機張教Maths大考38分,F.2俾Ms Wai教Maths大考全級第二,你話呢。


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The most important invariants in basic electronics

The two basic laws in circuit analysis, Kirchhoffs Voltage and Current Laws,

  1. [KVL] Voltage across the same pair of points is the same no matter what paths you take
  2. [KCL] Current stay the same along the same path

are often taught in basic circuit analysis, but most of the time, they taught it in the context of nodal analysis, which you have a little more complicated meshes with multiple theoretical power source (voltage or current) that simple series/parallel circuit rules are not enough to solve the puzzle.

However, these two fundamental concepts are useful to develop insights that help you estimate quantities in a circuit quickly like a pro.


Kirchhoffs Voltage Law [KVL] can be applied to a parallel circuit of 2 branches (often the case when measuring additional loading effect). Let say the two branches are applied (loaded) at a voltage output V_0, which V_0 might change depending on the branches (loading).

    \[V_0 = I_1 R_1 = I_2 R_2\]

You can exploit the algebra to quickly calculate the current of any branch without first computing the overall resistance or current:

    \[I_1 = I_2 \frac{R_2}{R_1}\]


Kirchhoffs Current Law [KCL] is useful in analyzing energy loss over resistance in wires R. For example, in high school physics, we discuss why we have high voltage power lines for bulk energy transmission despite it’s more dangerous. The traditional explanation is

    \[P_{wire loss} = I^2 R_{wires}\]

so the lower the current is (which can be done through stepping up the voltage, traditionally done with AC signal through transformers, to maintain the same power). But how about other form

    \[P = \frac{V^2}{R}\]

Technically, it’s possible, but you have to be very careful that the voltage we are talking about is across the wire with resistive losses V_{wire}, NOT the load voltage V_{load}.

    \[P_{wire loss} = \frac{V_{wire}^2}{R_{wire}}\]

V_{wire} changes depending on the output load R_{load}, so you have to derive the assuming an arbitrary R_{load}, which will happen to cancel itself out and end up the same as if you think of everything in terms of current first:

    \[P_{wire loss} = I^2 R_{wires}\]


So the bottom line is that most of the time, it is easier to think in terms of current in most circuit analysis because current won’t change along the same path. This is especially true when your problem has varying impedances/load which will disturb the voltage.

Of course, if the problem screams direct application using KVL, don’t go all the way converting it back to current. You will find the current-first approach useful when we get to semiconductors like diode, voltage references, BJTs,.

I usually think of voltage as a consequence or effect of current flushing into a transducer (e.g. resistor), so it’s subjected to change and therefore messy to use when solving circuit puzzles. Solving circuit analysis problems are often an exercise of identifying invariants and inferring the remaining quantities.

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Holo Fans Club: Hologarithm

師弟們向何老致敬嘅作品 Hologarithm. 基本上係 2005 年聖保羅書院會考(中五)畢業屆筆錄上堂同何佬交流嘅回憶。

Download:

Hologarithm v7.0

最尾頁嘅特別鳴謝嘅 Holo Fans Club

http://dogbert.servehttp.com/holofansclub/index.htm

係我當年貪得意整出嚟嘅網頁。已經棄置好耐冇 update。内容已經重新整理到 WordPress:

http://wonghoi.humgar.com/blog/category/school/spc/holo-fans-club/

師弟嘅 Blog:

http://ringo503cw.blogspot.com/2008/04/hologarithm.html

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Holo Fans Club: 新世紀何老主義入門 (by 趙克倫) Introduction to Hololism - A New Philosophy for a New Century

Download: 新世紀何老主義入門

新 世 紀 何 老 主 義 入 門

INTRODUCTION TO HOLOLISM
A NEW PHILOSOPHY FOR A NEW CENTURY
ORIGINAL BY
THORIUM HOLMIUM (ThHo) SULPHATE
(B. SC, HKU; CERT ED., HKU)
(19XX-20XX)
EDITED BY: SMALL POTATOES (B. PH. SC, HORNS., HK(CEE)= 9U)

 

發憤啊!
CH 1 聖保羅冇希望啦! 你睇吓, 人哋寶翠園影名校影英皇, 聖類斯都唔影我哋呀!
CH 2 你哋俾啲心機啦!
CH 3 DON’T CRY OVER THE SPILT MILK
CH 4 A. MATHS 都係大家係度鬥背數
CH 5 你地自己搞掂啦
CH 6 YOU WILL HAVE 3 TESTS NEXT MONDAY AND TUESDAY
CH 7 冇人咁做㗎
CH 8 PEOPLE USUALLY DO IT LIKE THIS
CH 9 我趕住上堂㗎
CH 10 數學冇 MARKING 㗎
CH 11 攞到 A 都唔恭喜你
CH 12 最多俾多十分鐘你哋
結語 香港水平真係好差! (如果你會考 MATHS 同 A. MATHS 考到 A 返學校剝佢棚牙)

 

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