- Văn bản
- Lịch sử
and the character of the primary co
and the character of the primary coil, determined in part
http://www.frank.germano.com/lostinventions.htm (6 of 28)2004/11/22 09:47:22 AM
the lost inventions of Nikola Tesla
by the length of its winding. Now when all these primary-circuit components are tuned to work in
harmony with each other, and the circuit's resulting frequency is right for plucking the secondary in a
compatible rhythmic manner, the secondary becomes at its terminal end maximally excited and
develops huge electrical potentials, which if not put to work, boil off as a corona of bluish light or as
sparks and streamers that jump to nearby conductors with crackling reports.
Unlike the conventional iron-core step-up transformer, whose core has the effect of damping
vibrations, the secondary of the Tesla transformer is relatively free to swing unchecked. The pulsing
from the primary coil has the effect of pushing a child in a swing. If it's done in a rhythmic manner at
just the right moment at the end of a cycle, the swing will oscillate up to great heights. Similarly, with
the right timing, the electrical vibration of the secondary can be made to swing up to tremendous
amplitudes, voltages in the millions. This is the power of resonance.
Manmade earthquake
Tesla was fascinated with the power of resonance and experimented with it not only electrically but on
the mechanical plane as well. In his Manhattan lab he built mechanical vibrators and tested their
powers. One experiment got out of hand.
Tesla attached a powerful little vibrator driven by compressed air to a steel pillar. Leaving it there, he
went about his business. Meanwhile, down the street, a violent quaking built up, shaking down plaster,
bursting plumbing, cracking widows, and breaking heavy machinery off its anchorage. Tesla's vibrator
had found the resonant frequency of a deep sandy layer of subsoil beneath his building, setting up an
earthquake.
Soon Tesla's own building began to quake, and, just at the moment the police burst into the lab, Tesla
was seen smashing the device with a sledgehammer, the only way he could promptly stop it. In a
similar experiment, on an evening walk through the city, Tesla attached a battery-powered vibrator,
described as being the size of an alarm clock, to the steel framework of a building under construction
and, adjusting it to a suitable frequency, set the structure into resonant vibration. The structure shook,
and so did the earth under his feet.
Later Tesla boasted that he could shake down the Empire State Building with such a device, and, as if
this claim were not extravagant enough, he went on to state that a large-scale resonant vibration was
capable of splitting the Earth in half. No details of Tesla's vibrators are available, but they probably
resembled one of Tesla's reciprocating engines (such as Patent No. 511,916). These exploited the
elasticity of gases, just as his electrical vibrators, like the Tesla coil, exploit the elasticity of the electric
medium.
A new power system
Tesla invented his resonant transformer, as the Tesla coil is sometimes called, to power a new type of
high-frequency lighting system, as his 1891 patent drawing shows. This was the first Tesla coil patent.
There followed a series of other patents developing the device. All of these are for bipolar coils: both
ends of the secondary are connected to the working circuit (usually lamps), as opposed to the mono
http://www.frank.germano.com/lostinventions.htm (7 of 28)2004/11/22 09:47:22 AM
the lost inventions of Nikola Tesla
polar format favored by today's basement builders in which the top is connected to a ball or other
terminal capacitor, the bottom to ground. The mono polar format emerges later in patents for radio and
wireless power, including Tesla's magnifying transmitter.
The 1896 patent drawing shows an evolved bipolar coil using tandem chokes to store energy for
sudden release into the capacitor, enabling the device to be powered by relatively modest inputs.
Chokes are coils wound on iron cores. They store energy as magnetism. When the charging current is
interrupted, the magnetic field collapses inducing current in the coils, which rushes in to charge the
capacitors.
Superconductivity
Alternating currents can be sent over long distances with relatively low losses. This is why Tesla's
early 60-cycle system triumphed over Edison's direct current. The high frequency, high-potential output
of a Tesla coil can travel over relatively light conductors for vastly greater distances than conventional
60-cycle AC Losses occur to some degree from corona discharge but hardly at all from ohmic
resistance. This type of current also renders conductive materials that are normally nonconductive,
rarefied gases, for example. You might say these currents make a medium superconductive.
Although super-magnetism is not in the picture because high-frequency vibrations would be severely
damped by an electromagnet's iron core, it is revealing to reflect upon the unexploited
superconductivity of Tesla energy these days when science is congratulating itself on new advances in
the field. Prior to recent breakthroughs, superconductivity and super magnetism were low-temperature
(cryogenic) phenomena, occurring when circuits were cooled down to near absolute zero. The new
superconductivity at less drastically reduced temperatures developed out of the cryogenic work of the
last twenty years, and this may be in debt to Tesla, who patented a similar idea way back in 1901.
Tesla's patent shows that the deep cooling of conductors with agents like liquid air results in an
extraordinary magnification of the oscillation in the resonating circuit. Imagine the performance of a
super cooled Tesla coil. No electrocution. Since we tend to associate high voltage with possibly fatal
electric shock it may be puzzling to learn that the output of a well-tuned Tesla coil, though in the
millions of volts, is harmless. This is customarily thought to be because the amperage is low (it's not)
or it's explained in terms of something called the skin effect, which means that the current travels over
you instead of through. But the real reason is a matter of human frequency response. Just as your ears
cannot respond to vibrations over about 30,000 cycles, or the eyes to light vibrations at or above ultra
violet, your nervous system cannot be shocked by frequencies over about 2,000 cycles.
Electrotherapy
Now that you know it's harmless, would you believe these currents are even good for you? Fact is that
a whole branch of medicine was founded on the healing effects of certain Tesla coil frequencies. Tesla
understood the therapeutic value of high-frequency vibrations. He never patented in the area but did
announce his findings to the medical community, and a number of devices were patented and
marketed by others.
http://www.frank.germano.com/lostinventions.htm (6 of 28)2004/11/22 09:47:22 AM
the lost inventions of Nikola Tesla
by the length of its winding. Now when all these primary-circuit components are tuned to work in
harmony with each other, and the circuit's resulting frequency is right for plucking the secondary in a
compatible rhythmic manner, the secondary becomes at its terminal end maximally excited and
develops huge electrical potentials, which if not put to work, boil off as a corona of bluish light or as
sparks and streamers that jump to nearby conductors with crackling reports.
Unlike the conventional iron-core step-up transformer, whose core has the effect of damping
vibrations, the secondary of the Tesla transformer is relatively free to swing unchecked. The pulsing
from the primary coil has the effect of pushing a child in a swing. If it's done in a rhythmic manner at
just the right moment at the end of a cycle, the swing will oscillate up to great heights. Similarly, with
the right timing, the electrical vibration of the secondary can be made to swing up to tremendous
amplitudes, voltages in the millions. This is the power of resonance.
Manmade earthquake
Tesla was fascinated with the power of resonance and experimented with it not only electrically but on
the mechanical plane as well. In his Manhattan lab he built mechanical vibrators and tested their
powers. One experiment got out of hand.
Tesla attached a powerful little vibrator driven by compressed air to a steel pillar. Leaving it there, he
went about his business. Meanwhile, down the street, a violent quaking built up, shaking down plaster,
bursting plumbing, cracking widows, and breaking heavy machinery off its anchorage. Tesla's vibrator
had found the resonant frequency of a deep sandy layer of subsoil beneath his building, setting up an
earthquake.
Soon Tesla's own building began to quake, and, just at the moment the police burst into the lab, Tesla
was seen smashing the device with a sledgehammer, the only way he could promptly stop it. In a
similar experiment, on an evening walk through the city, Tesla attached a battery-powered vibrator,
described as being the size of an alarm clock, to the steel framework of a building under construction
and, adjusting it to a suitable frequency, set the structure into resonant vibration. The structure shook,
and so did the earth under his feet.
Later Tesla boasted that he could shake down the Empire State Building with such a device, and, as if
this claim were not extravagant enough, he went on to state that a large-scale resonant vibration was
capable of splitting the Earth in half. No details of Tesla's vibrators are available, but they probably
resembled one of Tesla's reciprocating engines (such as Patent No. 511,916). These exploited the
elasticity of gases, just as his electrical vibrators, like the Tesla coil, exploit the elasticity of the electric
medium.
A new power system
Tesla invented his resonant transformer, as the Tesla coil is sometimes called, to power a new type of
high-frequency lighting system, as his 1891 patent drawing shows. This was the first Tesla coil patent.
There followed a series of other patents developing the device. All of these are for bipolar coils: both
ends of the secondary are connected to the working circuit (usually lamps), as opposed to the mono
http://www.frank.germano.com/lostinventions.htm (7 of 28)2004/11/22 09:47:22 AM
the lost inventions of Nikola Tesla
polar format favored by today's basement builders in which the top is connected to a ball or other
terminal capacitor, the bottom to ground. The mono polar format emerges later in patents for radio and
wireless power, including Tesla's magnifying transmitter.
The 1896 patent drawing shows an evolved bipolar coil using tandem chokes to store energy for
sudden release into the capacitor, enabling the device to be powered by relatively modest inputs.
Chokes are coils wound on iron cores. They store energy as magnetism. When the charging current is
interrupted, the magnetic field collapses inducing current in the coils, which rushes in to charge the
capacitors.
Superconductivity
Alternating currents can be sent over long distances with relatively low losses. This is why Tesla's
early 60-cycle system triumphed over Edison's direct current. The high frequency, high-potential output
of a Tesla coil can travel over relatively light conductors for vastly greater distances than conventional
60-cycle AC Losses occur to some degree from corona discharge but hardly at all from ohmic
resistance. This type of current also renders conductive materials that are normally nonconductive,
rarefied gases, for example. You might say these currents make a medium superconductive.
Although super-magnetism is not in the picture because high-frequency vibrations would be severely
damped by an electromagnet's iron core, it is revealing to reflect upon the unexploited
superconductivity of Tesla energy these days when science is congratulating itself on new advances in
the field. Prior to recent breakthroughs, superconductivity and super magnetism were low-temperature
(cryogenic) phenomena, occurring when circuits were cooled down to near absolute zero. The new
superconductivity at less drastically reduced temperatures developed out of the cryogenic work of the
last twenty years, and this may be in debt to Tesla, who patented a similar idea way back in 1901.
Tesla's patent shows that the deep cooling of conductors with agents like liquid air results in an
extraordinary magnification of the oscillation in the resonating circuit. Imagine the performance of a
super cooled Tesla coil. No electrocution. Since we tend to associate high voltage with possibly fatal
electric shock it may be puzzling to learn that the output of a well-tuned Tesla coil, though in the
millions of volts, is harmless. This is customarily thought to be because the amperage is low (it's not)
or it's explained in terms of something called the skin effect, which means that the current travels over
you instead of through. But the real reason is a matter of human frequency response. Just as your ears
cannot respond to vibrations over about 30,000 cycles, or the eyes to light vibrations at or above ultra
violet, your nervous system cannot be shocked by frequencies over about 2,000 cycles.
Electrotherapy
Now that you know it's harmless, would you believe these currents are even good for you? Fact is that
a whole branch of medicine was founded on the healing effects of certain Tesla coil frequencies. Tesla
understood the therapeutic value of high-frequency vibrations. He never patented in the area but did
announce his findings to the medical community, and a number of devices were patented and
marketed by others.
0/5000
và các ký tự của các cuộn dây chính xác định một phầnhttp://www.Frank.Germano.com/lostinventions.htm (6 / 28) năm 2004/11/22 09:47:22 AMnhững phát minh bị mất của Nikola Teslatheo chiều dài của nó quanh co. Bây giờ khi tất cả các thành phần tiểu mạch được điều chỉnh để làm việc trongsự hòa hợp với nhau, và tần số kết quả của vi mạch là phù hợp với tuốt thứ cấp trong mộttương thích nhịp điệu cách, thứ cấp trở thành ở cuối thiết bị đầu cuối của nó tối đa vui mừng vàphát triển tiềm năng điện rất lớn, mà nếu không đặt để làm việc, đun sôi ra như là một corona ánh sáng xanh nhạt hoặc làtia lửa và streamers nhảy để các dây dẫn gần đó với kêu báo cáo.Không giống như biến áp step-up lõi sắt thông thường, có cốt lõi có tác dụng daorung động, thứ cấp của máy biến áp Tesla là tương đối tự do để swing đánh dấu. Các pulsingtừ các cuộn dây chính có tác dụng đẩy một đứa trẻ trong một swing. Nếu nó được thực hiện một cách nhịp điệu tạichỉ cần vào đúng thời điểm cuối của một chu kỳ, swing sẽ dao động lên đến tuyệt vời heights. Tương tự, vớithời gian thích hợp, những rung động điện của thứ cấp có thể được thực hiện để swing đến to lớnamplitudes, điện áp trong hàng triệu. Điều này là sức mạnh của cộng hưởng.Trận động đất nhân tạoTesla đã thích thú với sức mạnh của cộng hưởng và thử nghiệm với nó không chỉ điện nhưng trênmáy bay cơ khí là tốt. Trong phòng thí nghiệm Manhattan của mình ông máy rung cơ khí xây dựng và thử nghiệm của họpowers. One experiment got out of hand.Tesla attached a powerful little vibrator driven by compressed air to a steel pillar. Leaving it there, hewent about his business. Meanwhile, down the street, a violent quaking built up, shaking down plaster,bursting plumbing, cracking widows, and breaking heavy machinery off its anchorage. Tesla's vibratorhad found the resonant frequency of a deep sandy layer of subsoil beneath his building, setting up anearthquake.Soon Tesla's own building began to quake, and, just at the moment the police burst into the lab, Teslawas seen smashing the device with a sledgehammer, the only way he could promptly stop it. In asimilar experiment, on an evening walk through the city, Tesla attached a battery-powered vibrator,described as being the size of an alarm clock, to the steel framework of a building under constructionand, adjusting it to a suitable frequency, set the structure into resonant vibration. The structure shook,and so did the earth under his feet.Later Tesla boasted that he could shake down the Empire State Building with such a device, and, as ifthis claim were not extravagant enough, he went on to state that a large-scale resonant vibration wascapable of splitting the Earth in half. No details of Tesla's vibrators are available, but they probablyresembled one of Tesla's reciprocating engines (such as Patent No. 511,916). These exploited theelasticity of gases, just as his electrical vibrators, like the Tesla coil, exploit the elasticity of the electricmedium.A new power systemTesla invented his resonant transformer, as the Tesla coil is sometimes called, to power a new type ofhigh-frequency lighting system, as his 1891 patent drawing shows. This was the first Tesla coil patent.There followed a series of other patents developing the device. All of these are for bipolar coils: bothends of the secondary are connected to the working circuit (usually lamps), as opposed to the monohttp://www.frank.germano.com/lostinventions.htm (7 of 28)2004/11/22 09:47:22 AMthe lost inventions of Nikola Teslapolar format favored by today's basement builders in which the top is connected to a ball or otherterminal capacitor, the bottom to ground. The mono polar format emerges later in patents for radio andwireless power, including Tesla's magnifying transmitter.The 1896 patent drawing shows an evolved bipolar coil using tandem chokes to store energy forsudden release into the capacitor, enabling the device to be powered by relatively modest inputs.Chokes are coils wound on iron cores. They store energy as magnetism. When the charging current isinterrupted, the magnetic field collapses inducing current in the coils, which rushes in to charge thecapacitors.SuperconductivityAlternating currents can be sent over long distances with relatively low losses. This is why Tesla'sđầu chu kỳ 60 hệ thống chiến thắng trên của Edison chiều. Tần số cao, sản lượng cao tiềm năngcủa một Tesla coil có thể đi du lịch trên các dây dẫn tương đối nhẹ cho khoảng cách xa bao la hơn so với thông thườngchu kỳ 60 AC thiệt hại xảy ra đến mức độ một số từ corona xả nhưng khó ở tất cả từ ohmickháng chiến. Loại hiện tại cũng ám vật liệu dẫn điện bình thường nonconductive,rarefied khí, ví dụ. Bạn có thể nói những dòng làm cho một phương tiện superconductive.Mặc dù siêu từ tính là không trong hình vì rung động tần số cao sẽ là nghiêm trọngdamped bởi lõi sắt một nam châm điện, nó tiết lộ để phản ánh khi các chưa được khai thácCác siêu dẫn của Tesla năng lượng những ngày khi khoa học chúc mừng bản thân về tiến bộ mới tronglĩnh vực này. Trước khi đột phá tại, siêu dẫn và siêu từ tính đã được nhiệt độ thấphiện tượng (đông), xảy ra khi mạch được làm mát bằng xuống gần bằng không tuyệt đối. Mớitính siêu dẫn ở nhiệt độ ít quyết liệt giảm phát triển ra khỏi công việc trong của cáchai mươi năm, và điều này có thể trong nợ để Tesla, người cấp bằng sáng chế một ý tưởng tương tự như cách trở lại vào năm 1901.Tesla của bằng sáng chế cho thấy rằng sâu làm mát của dây dẫn với các đại lý như không khí chất lỏng kết quả trong mộtbất thường phóng đại của dao động trong các mạch resonating. Hãy tưởng tượng hiệu suất của mộtlàm mát bằng siêu Tesla coil. Không có điện giật. Kể từ khi chúng tôi có xu hướng để kết hợp các điện áp cao với có thể gây tử vongđiện giật có thể khó hiểu để tìm hiểu rằng đầu ra của một điều chỉnh tốt Tesla coil, mặc dù trong cáchàng triệu volt, là vô hại. Điều này được customarily cho là bởi vì amperage là thấp (đó là không)hoặc nó giải thích về một cái gì đó gọi là có hiệu lực da, có nghĩa là các chuyến du lịch hiện tại trênbạn thay vì thông qua. Nhưng lý do thực sự là một vấn đề của đáp ứng tần số của con người. Cũng giống như đôi tai của bạnkhông thể đáp ứng với rung động qua chu kỳ khoảng 30.000 hoặc mắt để rung động ánh sáng tại hoặc cao hơn siêutím, Hệ thống thần kinh của bạn không thể bị sốc bởi tần số trong khoảng 2.000 chu kỳ.ElectrotherapyBây giờ mà bạn biết nó là vô hại, bạn có tin rằng những dòng thậm chí tốt cho bạn? Thực tế làmột chi nhánh toàn bộ của y học được thành lập trên các tác dụng chữa bệnh của Tesla coil tần số nhất định. Teslahiểu giá trị chữa bệnh của dao động tần số cao. Ông không bao giờ cấp bằng sáng chế trong khu vực, nhưng đã làmcông bố kết quả của mình cho cộng đồng y tế, và một số thiết bị đã được cấp bằng sáng chế vàthị trường bởi những người khác.
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