Thursday, 25 August 2011
batch editor
annyeonghaseyo
kamsamhamnida...
how are you...
you sick don't you?
be healthy...
this day i want to tell you all about my pic which is edit by me
for you all:
kamsamhamnida...
how are you...
you sick don't you?
be healthy...
this day i want to tell you all about my pic which is edit by me
for you all:
this is my friend..
his name is mohd.dzhinin khalish
HIS IS MISCHIEVOUS BOY
he is so fat
he likes to creak joke
me and my sister
pretty don't we??
this time i'm and my family at 'kampung' wanted to celebrate Hari Raya Aidilfitri
this is my best friend
her name is natasha ezeatty
she is pretty,isn't she?
she get 5a in trial upsr same with me..
i hope she can get 5a in upsr
she also likes to creak joke
photo bucket
natasha with 2 cerdik pupils
from left: natasha,muzainah,lim
these girls are my best friends
his name ammar
he studies in year 1 Pintar
she is clever...
i likes him like a little brother....
hahahaa
they are close as thives
they are best friends...
izati is clever especially in bi
i like friend with them very much..
nabila is so rich girl..
her house near my house..
these are my classmates..
they did some homework...
study!!!
muzainah & lim
don't sleep anymore...
lim : yes miss aza
photo bucket:
photo bucket
Sunday, 21 August 2011
alexander graham bell & his telephone
I. Introduction
On March 10, 1876, in Boston, Massachusetts, Alexander Graham Bell invented the telephone. Thomas Watson fashioned the device itself; a crude thing made of a wooden stand, a funnel, a cup of acid, and some copper wire. But these simple parts and the equally simple first telephone call -- "Mr. Watson, come here, I want you!" -- belie a complicated past. Bell filed his application just hours before his competitor, Elisha Gray, filed notice to soon patent a telephone himself. What's more, though neither man had actually built a working telephone, Bell made his telephone operate three weeks later using ideas outlined in Gray's Notice of Invention, methods Bell did not propose in his own patent.
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Intrigue aside for now, the story of the telephone is the story of invention itself. Bell developed new and original ideas but did so by building on older ideas and developments. Bell succeeded specifically because he understood acoustics, the study of sound, and something about electricity. Other inventors knew electricity well but little of acoustics. The telephone is a shared accomplishment among many pioneers, therefore, although the credit and rewards were not shared equally. That, too, is often the story of invention.
Telephone comes from the Greek word tele, meaning from afar, and phone, meaning voice or voiced sound. Generally, a telephone is any device which conveys sound over a distance. A string telephone, a megaphone, or a speaking tube might be considered telephonic instruments but for our purposes they are not telephones. These transmit sound mechanically and not electrically. How's that?
Speech is sound in motion. Talking produces acoustic pressure. Speaking into the can of a string telephone, for example, makes the line vibrate, causing sound waves to travel from one end of the stretched line to the other. A telephone by comparison, reproduces sound by electrical means. What the Victorians called "talking by lightning."
A standard dictionary defines the telephone as "an apparatus for reproducing sound, especially that of the voice, at a great distance, by means of electricity; consisting of transmitting and receiving instruments connected by a line or wire which conveys the electric current." Electrical current 1) operates the telephone and 2) your voice varies that current to communicate. With those two important points established, let's look at telephone history.
Modern telephones don't use carbon in their handsets. They use electret microphones for the transmitter and piezoelectric transducers for receivers but the principle described in the image linked above is the same. Sound waves picked up by an electret microphone causes "a thin, metal-coated plastic diaphragm to vibrate, producing variations in an electric field across a tiny air gap between the diaphragm and an electrode."[Britannica definition] A piezoelectric transducer uses material which converts the mechanical stress of a sound wave upon it into a varying electrical signal.
Telephone history begins at the start of human history. Man has always wanted to communicate from afar. People have used smoke signals, mirrors, jungle drums, carrier pigeons and semaphores to get a message from one point to another. But a phone was something new. Some say Francis Bacon predicted the telephone in 1627, however, his book New Utopia only described a long speaking tube. A real telephone could not be invented until the electrical age began. And even then it didn't seem desirable. The electrical principles needed to build a telephone were known in 1831 but it wasn't until 1854 that Bourseul suggested transmitting speech electrically. And it wasn't until 22 years later in 1876 that the idea became a reality. But before then, a telephone might have been impossible to form in one's consciousness.
While Da Vinci predicted flight and Jules Verne envisioned space travel, people did not lie awake through the centuries dreaming of making a call. How could they? With little knowledge of electricity, let alone the idea that it could carry a conversation, how could people dream of a telephonic future? Who in the fifteenth century might have imagined a pay phone on the street corner or a fax machine on their desk? You didn't have then, an easily visualized goal among people like powered flight, resulting in one inventor after another working through the years to realize a common goal. Telephone development instead was a series of often disconnected events, mostly electrical, some accidental, that made the telephone possible. I'll cover just a few.
There are many ways to communicate over long distances. I have reproduced a nice color diagram which shows the Roman alphabet, the international flag code, Morse Code, and semaphore signaling. Click here to view
II. Early Telephone Development
For more information on Leyden jars, including photographs and instructions on how to build them, go this page at the Static Generator site:
In 1729 English chemist Stephen Gray transmitted electricity over a wire. He sent charges nearly 300 feet over brass wire and moistened thread. An electrostatic generator powered his experiments, one charge at a time. A few years later, Dutchman Pieter van Musschenbroek and German Ewald Georg von Kleist in 1746 independently developed the Leyden jar, a sort of battery or condenser for storing static electricity. Named for its Holland city of invention, the jar was a glass bottle lined inside and out with tin or lead. The glass sandwiched between the metal sheets stored electricity; a strong charge could be kept for a few days and transported. Over the years these jars were used in countless experiments, lectures, and demonstrations.
In 1753 an anonymous writer, possibly physician Charles Morrison, suggested in The Scot's Magazine that electricity might transmit messages. He thought up a scheme using separate wires to represent each letter. An electrostatic generator, he posited, could electrify each line in turn, attracting a bit of paper by static charge on the other end. By noting which paper letters were attracted one might spell out a message. Needing wires by the dozen, signals got transmitted a mile or two. People labored with telegraphs like this for many decades. Experiments continued slowly until 1800. Many inventors worked alone, misunderstood earlier discoveries, or spent time producing results already achieved. Poor equipment didn't help either.
Balky electrostatic generators produced static electricity by friction, often by spinning leather against glass. And while static electricity could make hair stand on end or throw sparks, it couldn't provide the energy to do truly useful things. Inventors and industry needed a reliable and continuous current.
In 1800 Alessandro Volta produced the first battery. A major development, Volta's battery provided sustained low powered electric current at high cost. Chemically based, as all batteries are, the battery improved quickly and became the electrical source for further experimenting. But while batteries got more reliable, they still couldn't produce the power needed to work machinery, light cities, or provide heat. And although batteries would work telegraph and telephone systems, and still do, transmitting speech required understanding two related elements, namely, electricity and magnetism.
In 1820 Danish physicist Christian Oersted discovered electromagnetism, the critical idea needed to develop electrical power and to communicate. In a famous experiment at his University of Copenhagen classroom, Oersted pushed a compass under a live electric wire. This caused its needle to turn from pointing north, as if acted on by a larger magnet. Oersted discovered that an electric current creates a magnetic field. But could a magnetic field create electricity? If so, a new source of power beckoned. And the principle of electromagnetism, if fully understood and applied, promised a new era of communication
for learners
MAILLARDET'S AUTOMATON
In 1928, The Franklin Institute in Philadelphia acquired the pieces of an interesting, but totally ruined, brass machine. The very same is an automaton, now in working order, and on display in The Franklin Institute's "Amazing Machine" exhibit!
THE CASE FILE
The Case Files are a unique repository in the history of science and technology. As the documentary record of The Franklin Awards program, the Case Files are filled with stories of scientific enterprise.
BEN FRANKLIN FAQAmerica has never forgotten Benjamin Franklin. He is a famous scientist, inventor, statesman, printer, philosopher, musician and economist. Today, we honor Ben Franklin as one of our Founding Fathers and as one of America's greatest citizens.
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