Rambling observations on books, history, movies, transit, obsolete technology, baseball, and anything else that crosses my mind.
Thursday, January 31, 2008
KLSI 89.3 FM #3 - January 31, 2008
Tuesday, January 29, 2008
David Bruce-Brown -- January 29, 2008
Sunday, January 27, 2008
Catholic Schools Week and Old Teachers -- January 27, 2008
Friday, January 25, 2008
Big Storm #2 -- January 25, 2008
Wednesday, January 23, 2008
Monday, January 21, 2008
Happy Birthday, Doctor King -- January 21, 2008
Sunday, January 20, 2008
Water-cooled Knox #1 -- January 20, 2008
We had a nice weekend. Saturday we took a drive to Half Moon Bay and visited Bay Books. We went to Five O'Clock mass. We went to "RO'STA QUERIA" for supper. The sign at Guererro's Tacqueria got damaged in the storm.
Today we went to Good Shepherd and gave blood.
Thursday, January 17, 2008
The Telephone (1869) -- January 17, 2008
Manufacturer and Builder Volume 1, Issue 5, May 1869
The Telephone.
(by Doctor P. H. Van der Weyde)
ONE of the most remarkable recent inventions connected with telegraphy is the telephone, an instrument which transmits directly the pitch of a sound by means of a telegraph-wire -- either an air-wire or submarine cable; so that, for instance, when the operator at one end of the wire sings or plays on an instrument any tune, as Yankee Doodle or Hail Columbia, it will be heard and distinguished plainly at the other end. This invention may, in its present state, have no direct practical application, but be a mere scientific, although highly interesting curiosity; but who can say that it does not contain the germ of a new method of working the telegraph, or some other useful practical purpose?
The telephone is not. the result of an accidental discovery, but of a thorough study of the laws of electromagnetism and of sound. It is founded on the fact that the difference in pitch of different tones is caused by different velocities of vibrations of the elastic sounding body; which vibrations are transmitted to and by the air with exactly the same velocity, and from the air may be communicated to a properly stretched membrane, like a piece of bladder or very thin sheet of India-rubber, stretched like a drumhead, which these also will vibrate with exactly the same velocity as the air and the original sounding body, be it the human voice, organ-pipe, string, or any musical instrument. If, now, at the centre of this little drum-head there be attached a small disk of some metal not easily burned by electric currents -- for instance, platinum -- while at the same time a platinum point may, by means of a screw, be so adjusted as to come very nearly in contact with this small platinum disk, it is clear that, when the membrane is put in vibration, a succession of contacts between the disk and point will be produced, of which the number in each second will exactly correspond with the number of vibrations in each second of the sounding body, or the tone produced by it. That part of the apparatus which serves to send off the tune or melody is represented in the illustration, Fig. 2. It consists simply of a square wooden box, provided at the side with a kind of mouth-piece similar to that of a speaking-tube, and at the top with an opening, over which the membrane just mentioned has been stretched. The small disk of platinum attached to the centre of this little drum-head is, by means of a very flexible strip of some metal that conducts well, attached to one pole of the galvanic battery, of which only one cup is represented in the figure, although for a long wire several cups will, of course, he required. The reason why this connection near the platinum disk is a flat, thin and flexible strip is, that any rigidity would interfere with the freedom of vibration of the membrane to which it is attached. The point coming in contact with this small vibrating disk is connected with the ground-wire, the other pole of the battery with the air wire or submarine cable. It is clear, from this explanation, that at every contact of the platinum point a wave of electricity will be sent over the wire, and as many waves in a second as there are contacts; and as there as many contacts as there are vibrations in every second, the number of electric waves will be always exactly equal to the number of vibrations corresponding with the pitch of each tone, be it fifty, one hundred, two hundred, or five hundred in every second.
The instrument in which this succession of waves is made audible at the other end of the telegraph-wire is founded on the fact, first investigated by Professor Henry, of the Smithsonian Institute at Washington, that iron bars, when becoming magnetic by means of electric currents passing around them, become slightly elongated, and at the interruption of the current are at once restored to their original length. It is represented in the cut, Fig. 3, and consists of an elongated wooden box, of which the top is made of thin pine wood, similar to the sounding-board of a stringed musical instrument, to which are attached two bridges carrying long pieces of moderately thick and very soft iron wire, which for nearly their whole length are surrounded by a coil similar to the coil of the electro magnets used in telegraphing. One end of this coil is attached to the telegraph-wire, the other to the ground-wire, as represented in the figure. At every instant that a contact is established at the station where the sound is produced, and a current wave thus transmitted, these wires will become magnetic, and consequently elongated, and they will be shortened again at every interruption of the current and as these currents and interruptions succeed each other with the same velocity as the sound vibrations, the elongations and shortenings of the magnetized iron wire will succeed each other with exactly the same velocity, and consequently they will be thrown into a state of longitudinal vibrations corresponding with the original musical tone, which vibrations will then be communicated to the sounding-board in exactly the same manner as is the case with the vibrations of the strings in all stringed instruments, thus becoming more audible at the receiving station.
It is clear, from the foregoing explanations, that no quality of tone can be transmitted. Much less can articulate words be sent, notwithstanding the enthusiastic prediction of some persons, who, when they first beheld this apparatus in operation, exclaimed, that now we would talk directly through the wire. It is from its nature able to transmit only pitch and rhythm, consequently melody, and nothing more. No harmony, nor different degree of strength or other qualities of tone can be transmitted; the receiving instrument in fact sings the melodies transmitted as it were with its own voice, resembling the humming of an insect, regardless of the quality of the tone which produces the original tune at the other end of the wire. This instrument is a German invention, and was first exhibited, in New-York, at the Polytechnic Association of the American Institute, by Dr. Van der Weyde. The original sounds were produced at the further extremity of the large building, (the Cooper Institute,) totally out of hearing of the association and the receiving instrument standing on the table of the lecture-room, produced with its own rather nasal twang the different tunes sung at the other end of the line, rather weakly, it is true, because of the weak battery used, but very distinctly and correctly.
Tuesday, January 15, 2008
DVD: Batman and Robin -- January 15, 2007
Sunday, January 13, 2008
Catching Up #3 - January 13, 2008
Friday, January 11, 2008
Thompson's Gravity System for Rapid Transit in Towns and Cities -- January 11, 2008
Wednesday, January 9, 2008
Jury Duty -- January 9, 2008
Monday, January 7, 2008
Signs of the Times #6 -- January 7, 2008
Saturday, January 5, 2008
Signs of the Times #5 -- January 5, 2008
Friday, January 4, 2008
Big Storm -- January 4, 2008
Thursday, January 3, 2008
Firehouse #3 -- January 3, 2008
Tuesday, January 1, 2008
DVD: Discovering Cinema -- January 1, 2008
The extras were almost better than the documentaries. The sound examples included an excerpt from a strange 1920 movie called "The Chamber Mystery." Most of the time the characters spoke in balloons that popped up on the screen, but a few lines of dialogue were on conventional subtitles. Two movies showed unidentified actors miming to Caruso records. The synchronization was excellent. I was happy to see Edison's 1913 "Nursery Favorites," which I have been anxious to see since I read Walter Kerr's The Silent Clowns. It was not as bad as I expected. The Queen of the Fairies did not sound like Barry White. The last sound extra was the only part-talkie short subject I have ever seen, an episode of Universal's "The Collegians". I didn't see how they decided when the talking should stop and the subtitles should start.
The sound on disk extras reminded me of when I made Super 8 movies in high school. I had a hard time persuading my friends that we could not make talkies by recording the sound on my cassette player.
The color extras included some Lumiere films that had been hand-colored. The contrast between the jumping color of those films and the later stencilled films was clear. There was an eleven-minute Kinemacolor film showing the dedication of the campanile in Venice. Ironically, only a few shots showed the campanile. I was impressed that the many shots taken from a boat did not seem to show fringing. Another film was a test of the Lumicolor process, which was an adaption of Lumiere's Autochrome, using particles of brewer's yeast instead of rice grains. It was a bit grainy, but the colors were good. The restored version of "La Cucaracha," the first live action production in three-color Technicolor, was pretty to look at, but fast-moving characters looked smeared. This may have been because of problems in transferring the video from PAL.
I wanted to recreate Kinemacolor in Super 8, but I could never figure out how to get the filter wheel to synchronize.
My thanks to Serge Bromberg of Lobster Films and the many others who created this set. I recommend it highly.