Wheatstone Bridge: A (Not So) Honorable History

  Рет қаралды 178,726

Kathy Loves Physics & History

Kathy Loves Physics & History

Күн бұрын

Пікірлер: 404
@kevinbyrne4538
@kevinbyrne4538 2 жыл бұрын
12:43 -- Jacobi did publish a picture of his rheostat in 1842: Jacobi, M.H. (1842) "Beschreibung eines verbesserten Voltagometers" (Description of an improved voltagometer) Bulletin Scientifique publié par l’Académie impériale des sciences de Saint-Pétersbourg, 10: columns 285-288. Three diagrams appear after column 288.
@Kathy_Loves_Physics
@Kathy_Loves_Physics 2 жыл бұрын
Wow! Thank you thank you thank you! I don’t speak German or French and I was having a heckuva time finding it. ❤️❤️❤️
@kevinbyrne4538
@kevinbyrne4538 2 жыл бұрын
@@Kathy_Loves_Physics -- You're welcome. 🙂 If you want a translation of the article, I could provide one. (It would take a few days to type it up. And I'd need an e-mail address to which I could send it.)
@htooloo365
@htooloo365 2 жыл бұрын
Good find. However; he saw Wheatstone's rheostat in 1840, but not published his book until 1842, so why Kathy implied Wheatstone had seen Jacobi’s before 1840 (20:39) by repeating the quote “quite impossible” in the text? The whole sentence means otherwise.
@kevinbyrne4538
@kevinbyrne4538 2 жыл бұрын
@@htooloo365 -- Yes. At 8:28 the text of Jacobi's article states that Jacobi thought that Wheatstone could Not have known about Jacobi's rheostat when Wheatstone invented his own version of a rheostat. So in Jacobi's opinion, they had invented the rheostat independently. The text originally appeared on p. 21 of: Jacobi (1840) "On the principles of electro-mechanical machines" Tenth Meeting of the British Association for the Advancement of Science: Notices and Abstracts of Miscellaneous Communications to the Sections pp. 18-24.
@beyondzeroemissions
@beyondzeroemissions Жыл бұрын
@@Kathy_Loves_Physics did you ever get back to Kevin Byrne who said he could translate for you.
@johncurrie6359
@johncurrie6359 Жыл бұрын
When I was a kid, remember my physics teacher muttering darkly that "It isn't Wheastone's bridge, it's a Christie's bridge"...the text-books said otherwise. Thanks for clearing that up!!
@hansvetter8653
@hansvetter8653 2 жыл бұрын
Kathy! You are just a great story teller! For me that's by far the best way to teach science to the public by telling its history! Thank you!
@joseantoniotorresmartinez7748
@joseantoniotorresmartinez7748 2 жыл бұрын
Hans ,quite agreeing with you!
@helihobbit
@helihobbit Жыл бұрын
I third that!
@stevemawer848
@stevemawer848 Жыл бұрын
Great story teller, but please don't flap your arms about so much, I got nauseous watching them.
@jimparr01Utube
@jimparr01Utube 2 жыл бұрын
The context you use to describe these basics of electricity and magnetism is most enlightening. As-in the true historical machinations and personalities behind these leap-frog discoveries. Thank you Kathy.
@donberg01
@donberg01 2 жыл бұрын
Another home run! I would like to add as an aircraft technician, this concept is used to measure the density of the fuel by weight, using capacitors instead of resistors. The variable capacitance being the fuel compared to a known reference capacitance.
@coreymugaas6388
@coreymugaas6388 2 жыл бұрын
where can I read more about this in your application? I am a marine technician specializing in electronics, networks, and sensors... also working on my own engine instrumentation systems. thanks
@malcolmhodgson7540
@malcolmhodgson7540 2 жыл бұрын
And so far it has worked perfectly! I have never ran out of fuel whilst flying, yet………….
@GlennElert
@GlennElert 3 жыл бұрын
This is the first time I've heard a Wheatstone story that didn't include the fear of public speaking anecdote - which means I got to learn something. Well done.
@Kathy_Loves_Physics
@Kathy_Loves_Physics 3 жыл бұрын
Funny thing, I mentioned that he was scared of speaking in my last video and I was going to mention it again, but cut it out as it didn't need to be said twice. Glad I did.
@robertakerman3570
@robertakerman3570 2 жыл бұрын
always disliked those things, professor did a poor job(don't really need them 2 fix stuff) since the whole class was lost.
@johngee9018
@johngee9018 2 жыл бұрын
As a child of the late 20th Century, I am often humbled by science history. I was taught about electrical voltage, current and the relationship between them (resistance, capacitance and inductance) almost as if Ohm's Law always been understood and accepted since the "beginning of time". It is fascinating to learn how this was not the case and that even among the best and brightest minds of their time, they was much uncertainty, disagreement and debate. It is remarkable that the "idle thoughts" of a handful of curious minds over 150 years ago led to the splitting of atoms, spacecraft that travel the Universe and supercomputers that we can carry around in our pockets.
@insightfool
@insightfool 2 жыл бұрын
Lots of theft like this happens from grad students to professors today. It's just really hard to track. This videos are great for being reminded of this re-writing of history by the victors.
@martinda7446
@martinda7446 2 жыл бұрын
Yes, the Pulsar springs to mind.
@martinda7446
@martinda7446 2 жыл бұрын
...The graduates are used like slaves or tools on occasion for the overseeing prof.
@ddognine
@ddognine Жыл бұрын
It's getting better though as a lot of research papers today will have literally a dozen or more participants.
@JJ73100
@JJ73100 Жыл бұрын
very nice and helpful to bring their names back to life
@theklaus7436
@theklaus7436 3 жыл бұрын
This channel is so important. Oh Kathy has new- and I’m learning so much about these achievements! Great. I love this
@Kathy_Loves_Physics
@Kathy_Loves_Physics 3 жыл бұрын
Glad you enjoy it!
@martinda7446
@martinda7446 2 жыл бұрын
I agree, it is a wonderful channel. Essential viewing for me.
@MichaelWillems
@MichaelWillems 2 жыл бұрын
Jacobi’s “voltagometer” (“an improved rheostat markedly better than that by Poggendorf”) worked by suspending platinum wires in separate mercury containers. The mercury containers are connected by a platinum wire that can be raised or lowered to increase or decrease the length of platinum generated by the current, and hence the resistance. Got this from a Dutch book from 1860: “Over het meten van den galvanischen geleidingsweerstand inzonderheid bij metalen” By Hendrik W. Schroeder van der Kolk Incidentally, I like to find references in Dutch scientific literature, because traditionally, any educated Dutch person would have spoken German, English and French (and know Latin), so they were usually aware of more international publications than most).
@itsevilbert
@itsevilbert 3 жыл бұрын
Thanks, never heard of Moritz von Jacobi before, but I did hear of use his Maximum power theorem. Basically always match impedances for maximum power transfer, it is one of those things that is as fundamental as ohms law and taken for granted. In the RF world most circuits are designed to have 50 ohms on their inputs (e.g. reference clocks) and outputs (e.g antennas). In designing high speed address and data buses in computers the impedance of all the transmission lines on the PCB's (Printed Circuit Boards) would all be designed to match the input and output of everything on the buses (e.g. memory, I/O and CPU) which is typically 50 to 60 ohms. I love your video as always! Thank you.
@Kathy_Loves_Physics
@Kathy_Loves_Physics 3 жыл бұрын
I was tempted to mention his maximum power equation but the video was already so long that I had to cut it. Jacobi deserves his own video honestly. Glad you liked this video and thanks for always commenting
@flippert0
@flippert0 2 жыл бұрын
More famous than Moritz probably is his brother Carl Gustav Jacob Jacobi (en.wikipedia.org/wiki/Carl_Gustav_Jacob_Jacobi) at least in mathematical circles.
@aclearlight
@aclearlight 2 жыл бұрын
I'm so happy to have discovered this KZbin channel! Wonderful content charmingly presented.
@mewintle
@mewintle 2 жыл бұрын
Wonderful! Thank you. Knowing the history of inventions is so helpful in really understanding the components!
@williamdegnan4718
@williamdegnan4718 3 жыл бұрын
According to my late father the variable resistor was invented by either Sam Rheostat or Sam Potentiometer. When I was very young I just discovered that my father knew everything about inventions. It did surprise me how many inventors were named Sam.
@Kathy_Loves_Physics
@Kathy_Loves_Physics 3 жыл бұрын
Your father sounds like a hoot.
@williamdegnan4718
@williamdegnan4718 3 жыл бұрын
@@Kathy_Loves_Physics Indeed. He was also a skilled raconteur and notorious punster, not to overlook his engineering prowess. Rarely a day goes by that I don't observe something that would have amused him. He was a PE and there are so many technical skills I learned at his elbow. He would have enjoyed your videos too. One of the places he worked during his GE career was the high voltage laboratory. I got to go there once on family day. kzbin.info/www/bejne/nX_PnHiBbrybr7s
@Kathy_Loves_Physics
@Kathy_Loves_Physics 3 жыл бұрын
That is so interesting! And I love those old videos. I am working on a video about James Joule and then after that I’m going to do a video on three phase current but after that I’m going to do a video on Charles Steinmetz who invented the first lightning machine that was powerful and didn’t just look like lightning and he works for GE so you probably saw some of his devices! I am sorry I missed out on meeting your father - I think we would have liked each other even if I don’t mention Sams enough.
@williamdegnan4718
@williamdegnan4718 3 жыл бұрын
@@Kathy_Loves_Physics he spent years working within feet of where Steinmetz worked but they were not contemporaries. GE is a dirty word in my former hometown due to numerous things such as their casual disposal of PCBs back in the day. Some great science and technology came out of there however.
@simpleminded1uk
@simpleminded1uk 2 жыл бұрын
This reminds me of the great rivalry between George Device (supposed relative of the Pendel witch Jennet Device), Isambard Widget, and Lord Aubrey Millington, third viscount Doohicky.
@johnscaramis2515
@johnscaramis2515 2 жыл бұрын
I worked in a research and testing facility for a few years. When checking some background information on strain gauge measurements (you should know some basics of what you do), I also got to know Wheatstone's bridge. The measuring amplifiers nowadays are quite easy, you click on a button in the software to set all strain gauges to zero before the measurement, but in "ancient" times so had to tune one of the resistors in the Wheatstone bridges for each individual strain gauge by hand to start the measurement at 0 (or whatever value you liked).
@magmasunburst9331
@magmasunburst9331 3 жыл бұрын
Would be amazing to see film footage of these early "electronic" inventors at work in their laboratories, if only that was possible. Would be great to see close ups of them making all the inventions at the various stages.
@billkeithchannel
@billkeithchannel Жыл бұрын
The Wheatstone Bridge was one of the early circuit builds I did as a child using my Heath Kit set from the mid 1970's. The Heath Kit was plastic blocks with a component inside and placed on a LEGO looking base plate. The blocks were then tied together with pin clips and wires to make a circuit. One of the more complicated builds was a 3 transistor radio, multi-meter sound generator, and timing counters.
@pjh9104
@pjh9104 Жыл бұрын
When I was 11 I built the Heathkit Vacuum Tube Volt Meter (a truely useful and accurate bench meter) and when I was 14 I built the Heathkit oscilliscope. I loved those kits.
@billkeithchannel
@billkeithchannel Жыл бұрын
@@pjh9104 My late dad went through electronics correspondence school through Bell & Howell and built the projects you stated. Subsequent courses used the built items to perform tests.
@garbo8962
@garbo8962 Жыл бұрын
Built a Health Kit 25" TV while taking an electronic correspondence class that the VA paid 90% of. Wish more young kids would experiment with wires & electronics. Doubt if 1% of people even know how to use a soldering iron or gun.
@tomschmidt381
@tomschmidt381 3 жыл бұрын
Great history lesson, another colorful character in the annals of science. So much for science being solely an intellectual discipline. I was unaware of the history behind the Wheatstone Bridge.
@Kathy_Loves_Physics
@Kathy_Loves_Physics 3 жыл бұрын
I just learned the history of the bridge myself! Yeah, science is not always pretty or kind.
@forthwithtx5852
@forthwithtx5852 3 жыл бұрын
Love your enthusiasm, Kathy.
@Kathy_Loves_Physics
@Kathy_Loves_Physics 3 жыл бұрын
Thanks
@banehawi
@banehawi 2 жыл бұрын
Another interesting an energetic presenttion. I worked in the Telephone Company in Ireland many years ago, where we used the Wheatstone bridge to measure the distance to a short circuit in an underground cable.
@robertcuminale1212
@robertcuminale1212 2 жыл бұрын
See my reply on that same method. Did you call the tests Varley or Murray tests? We also used it to find grounds.
@banehawi
@banehawi 2 жыл бұрын
@@robertcuminale1212 Think it was Varley..
@robertcuminale1212
@robertcuminale1212 2 жыл бұрын
@@banehawi You know, we show our age knowing about cable testing. So much of the plant today is coaxial and digital. Bit error rate testers are now cheap enough that all the technicians carry one. They have to test a customer circuit before completing the order. One thing craftsmanship and the technical skills have deteriorated. After the company laid me because of the AT&T split I went into business for myself. some of the people working for me couldn't use an Ohmmeter. One didn't know how to polarize a line, He'd never heard of "tip and ring." I'm very happily retired now.
@airframedent
@airframedent 2 жыл бұрын
New follower here... I've worked in electronics most of my life and understand it as well as the next guy... I guess, but I've only known little snatches here and there of the history behind it all. I love your videos. Gets me closer to something I've always taken for granted.
@DK-hs3oz
@DK-hs3oz 2 жыл бұрын
As a former EE student, these names, these people are the Hallowed saints of electronics (Voltaire, Ohm, Wheatstone, etc). Thank you so much for bringing them to life, and for showing them to be human; warts, misrepresentations and all.
@kjamison5951
@kjamison5951 2 жыл бұрын
Voltaire was a philosopher among other things. I believe you mean Volta. Alessandro Volta, the Italian physicist.
@johnstreet797
@johnstreet797 Жыл бұрын
Volta, not Voltaire, sorry
@erwincarrasco8142
@erwincarrasco8142 Жыл бұрын
Voltaire? .Really!? What about Ampère?
@geertfdevries9518
@geertfdevries9518 Жыл бұрын
Voltaire does not belong here, his contribution is about other stuff
@SurfinScientist
@SurfinScientist Жыл бұрын
@@geertfdevries9518 Though it must be said that Voltaire could electrify his readers.
@mathijs1987j
@mathijs1987j 2 жыл бұрын
Great video! I just discovered this channel and I'm enjoying it so much! In this case, however, I do disagree with Kathy's interpretation of a source (that she presents). At 8:21, Kathy says that Wheatstone claims he and Jacobi made an independent discovery, but that Jacobi claimed this was "quite impossible". However, the full sentence, as shown in the video, reads "Now, it is quite impossible that he [Wheatstone] should have had the least notice of my [Jacobi's] instrument." This means that Jacobi claims that it is impossible that Wheatstone was aware of Jacobi's invention ("to have notice"="to be aware"). In other words, Jacobi is claiming that their inventions were independent. He and Wheatstone are in agreement on this, at least per the printed article.
@brucemccreary769
@brucemccreary769 3 жыл бұрын
Another most enjoyable "inside story", Kathy. Good presentation and graphics. Thank you!
@robertcuminale1212
@robertcuminale1212 2 жыл бұрын
This is the first mention of the Wheatstone Bridge I've heard since I left Ma Bell many years ago. Years ago telephone central offices had a test desk. In most cases it looked like one of the old corded switchboards operators worked from. The test desk took trouble reports from customers, tested them, dispatched a technician if necessary and then closed the ticket after noting what had been done to clear the problem. Most of them have disappeared if not because most testing is now done in the field by the technicians and the whole process has become computerized. Every test desk had a Wheatstone Bridge mounted in a drawer. The test deskman (old terminology) used it to measure resistances on cable troubles using a Murray Test Or a Varley Test. A technician would call in and the testdesk using the cable plats send him to the farthest end of the cable and short circuit the pair of wires in trouble. The pair of wires would be connected to the bridge. If one side of the pair was grounded he would measure the resistance through the short circuit to ground. Then he'd reverse the bridge and look thought short in the other direction. Using a math formula and consulting the cable plats showed the overall resistance and capacitance the cable he could put the technician within a few feet of the problem location. I the cable was running in the air the outside temperature was factored in. Buried cable was consistent in temperature. Mixed buried and aerial cable caused a fluctuation in the math but a good test desk man could still get you very close. At the time which was before the 1970s all the test deskmen were cable repairmen and a few equipment technicians tired of working outside in the weather. Some of the equipment technicians would transfer into the central office as Switchmen. That all changed in 1970 when the company women in these technical position to satisfy the Equal Employment Opportunity Commission. Without the field experience most of the women did the testing poorly. for the women it was all about money. The technical positions were filled with men and they paid better than the mostly clerical positions women were in. Almost immediately the company developed computerized testing. Once it had saturated the system almost all the testdesk personnel were downgraded to a clerical position that paid less and required less skill. The line cards were removed and the records were computerized. In an entire region there were one or two testdesk technicians and his testdesk used trunks to test in any troubles for the entire region. The Wheatstone Bridges. Eventually the Wheatstone Bridges disappeared. So did almost all of the technicians. The system is so computerized that people with those skills are no longer needed. That and the reduction of telephone lines on copper. Computers now compress thousands of telephones on what once could only carry one. Now you can get your telephone on a coax cable carrying your television signal and Internet service. Or you can just use a cellphone with a satellite dish for television. The installers now using technician as a title are installers. They have so little knowledge of equipment and electronics they are not technicians in reality The Wheatstone Bridge left with the technicians and they aren't coming back.
@gpwgpw555
@gpwgpw555 2 жыл бұрын
That was the #12 test desk.
@robertcuminale1212
@robertcuminale1212 2 жыл бұрын
@@gpwgpw555 Yeah, that was the old one. I would sometimes go inside to cover someone on vacation. We had a "temporary" test center using 2A cabinets. You must be another old timer. We're disappearing fast. It seems like someone passes every other month. And not very old either. The business really changed. The smaller COs have no one working in them. The cable techs make the inside connections, at least they used to until the SMAZ frames. Good Luck.
@gpwgpw555
@gpwgpw555 2 жыл бұрын
@@robertcuminale1212 42 years as a switchman in Oklahoma City. I loved 37 years of it. In the last five years we became customer driven. meaning we did not fix anything unless customers reported trouble.
@paulg444
@paulg444 2 жыл бұрын
I sit here and pinch myself because she is delivering such fantastic content.
@gregglasgow9432
@gregglasgow9432 Жыл бұрын
You are a natural Teacher. Thanks.
@nikmilosevic1696
@nikmilosevic1696 2 жыл бұрын
WOW, never knew any of this. Have a Wheatstone bridge in my collection that I got from a deceased estate for measuring resistors precisely, but the first Im hearing of these other people ie: as Jacobi and Christie. Once again much thanks for these stories.
@andywander
@andywander 2 жыл бұрын
Hey, Jacobi didn't write that it was impossible that they had come up with the same idea independently, he wrote that it was impossible that Wheatstone "should have had the least notice of my instrument", implying that he was convinced that they HAD come up with the same idea independently. Thanks for these videos!
@christianbarnay2499
@christianbarnay2499 2 жыл бұрын
And in the next sentence he praises Wheatstone for the wide variety of uses as a measuring tool that Wheatstone found for this device while himself only used it as a regulator. This is an extra argument for independent simultaneous discovery since they both created their device for different purposes.
@kevindoom
@kevindoom 2 жыл бұрын
@@christianbarnay2499 people at that time would choose politeness over direct confrontation to cope with public known figures stealing their ideas and decide to be the bigger person by attributing praise on the stealer not for stealing but in order to showing no hard feelings but they had internally recognised their own acheivements and felt it
@christianbarnay2499
@christianbarnay2499 2 жыл бұрын
@@kevindoom You can still politely criticize the attitude of someone, just like Cooke did when he clearly disapproved Wheatstone claiming their collaborative work as his own. When Jacobi says that Wheatstone and himself created the same instrument independently for different purposes (Jacobi needed a regulating device, Wheatstone needed a measuring device) there are no valid reasons to not believe him.
@kevindoom
@kevindoom 2 жыл бұрын
@@christianbarnay2499 i am the person that is on jacobis side in the first place
@kevindoom
@kevindoom 2 жыл бұрын
@@christianbarnay2499 whetstone was declaring that he independantly came up with it but in the exact same way the exact same way it was obvious of course Jacobi knew but he decided to deal with it politely
@monalong8900
@monalong8900 2 жыл бұрын
Thanks for taking the time to share. Such a simple circuit but very important for the first precision or matched resistors . It all seems so simple and obvious now but in 1839 sourcing an electric charge,copper wire or other metal conductive wire took some scrounging as well as quantifying the electric charge s intensity and flow. The "Wheatstone" and Galv-meter led to the first calibration of tools to measure Volts Amperes and Ohms.
@MrMatmulan
@MrMatmulan Жыл бұрын
I love your channel! its a breath of fresh air because most of these subjects are not discussed historically
@chinesejohn812
@chinesejohn812 3 жыл бұрын
Thanks for putting the fun into math and science. I watch all of your videos over and over. I have an interest in math and science but limited ability so that is why even though I have taken lots of college classes I do not work in the field and I have lots of bad memories in college with great suffering in tests and exams. But I watch your videos over and over and the joyous fun comes back to studying math and science because we see the human side to it.
@tombufford136
@tombufford136 Жыл бұрын
Thank you for this marvelously detailed video, I had time only for 5 or 6 minutes before skipping to the end. On mentioning " using Wheatstone bridge circuit for use with strain guages" to a Gloucester Engineering Manager years ago, It was mentioned he was associated with Gloucester and worked for Marconi .
@benjaminrich9396
@benjaminrich9396 2 жыл бұрын
Vitally necessary (for those of us into such topics), wonderfully researched and entertainingly delivered at a perfect pace. The highlighting of the documents to evidence what was said and when is a great touch. Superb :)
@Kathy_Loves_Physics
@Kathy_Loves_Physics 2 жыл бұрын
Thanks
@rjirwin497
@rjirwin497 2 жыл бұрын
You are a 'charismatic' educator / illuminator ... Thank you for sharing the 'back story' that is never shared in school. -
@Kathy_Loves_Physics
@Kathy_Loves_Physics 2 жыл бұрын
Thank you
@robertfallows1054
@robertfallows1054 2 жыл бұрын
So much research. It’s nice to get context on all these things which we now take for granted
@rocksandoil2241
@rocksandoil2241 Жыл бұрын
We used a Wheatstone bridge to create a gas detector. Platinum wires were 2 legs of the Wheatstone bridge. One wire was enclosed in a glass tube and the other platinum wire was in a gas stream sampling from a vacuum pump hooked to a small hose. If methane or other volatile gas is introduced to that open wire, it raises the temperature and changes the resistance in the platinum wire. A chromatograph could then be built by injecting a set volume into a "column" of silica gel which slowed the heavy molecules down. A carrier gas was used to keep a steady flow over the detector filament. Helium could be used or dried air was commonly used in the more rudimentary instruments. First gas to come out is methane and then successively larger molecules. The bridge records the change in resistivity to a chart recorder (today it would be a data logger to display on a computer.) Very simple and important on a drill rig attempting to detect entrained gases in the drilling fluid, very robust and non-fragile.
@zaneenaz4962
@zaneenaz4962 2 жыл бұрын
In school i built a cryogenic fluid temperature measuring device based on the Wheatstone Bridge circuit. Nice to hear the history and especially the evolution of thought. We all learn from each other....to be better.
@upsty6499
@upsty6499 2 жыл бұрын
Very well done, thank you for teaching physics in such an easy manner to comprehend.
@susilgunaratne4267
@susilgunaratne4267 2 жыл бұрын
Great! The history behind this ubiquitous concept that we use today in school lab to highly sophisticated electronic control system is very very fascinating. Thank you.
@Kathy_Loves_Physics
@Kathy_Loves_Physics 2 жыл бұрын
So glad you liked it. Certainly fell down the rabbit hole with that one
@wati52
@wati52 2 жыл бұрын
Your videos on physics history are amazing Kathy, thanks.
@punditgi
@punditgi Жыл бұрын
Kathy rocks! 😊
@georgegonzalez2476
@georgegonzalez2476 2 жыл бұрын
The basic bridge arrangement can also be used with two inductors or two capacitors as the top or bottom two elements, and that makes a very sensitive way to compare capacitors or inductors. The circuit can also be used with a gain element like a tube or transistor to make a very accurate oscillator or filter. Hewlett-Packard's first product was an audio oscillator that used such a bridge.
@germanhayles9194
@germanhayles9194 Жыл бұрын
This channel is GREAT!
@Philippians4vs4-8
@Philippians4vs4-8 2 жыл бұрын
I worked as a Technician for a resistor company back in the 70's & 80's. We used our own factory built high speed testers and these testers were built with the wheatstone principles, but were far more complex. We had a decade resistor network that was set to the nominal value, two tolerance dials which set the plus and minus tolerance of the resistor under test. And finally a compensation pot that nullified internal resistance. Instead of two coaxial cables going to the test resistor, there were four and a compensation network was also applied to these cables. Then it really got complicated in that we had to test on the 60 cycle crossover. This was to keep any outside interference from the test. That crossover detection went to the logic circuit where it fed an "and" gate along with the bridge sample and the result "good" 1 or "bad" 0 went to a shift register. That's about it except that I did not mention that the sample signal is developed by a bi-latteral switch which is running at 60Hertz.
@marksadler4104
@marksadler4104 2 жыл бұрын
OMG In America you have Edison who on account did innovations based on other inventors works, in the UK we have Wheatstone....What a story! Great video!!!!!!
@Skank_and_Gutterboy
@Skank_and_Gutterboy 2 жыл бұрын
The last time I used a Wheatstone Bridge was as a college student 20 years ago something with strain gages and pressure transducers. With my soldering technique, it was a good thing I was going into mechanical engineering.
@jaewok5G
@jaewok5G 2 жыл бұрын
just found your channel and anticipate impending productivity annihilation … still very pleased.
@ThePapa41
@ThePapa41 2 жыл бұрын
Great videos Kathy, so informative and more accurate than what I learned in school! Louis
@irrelevant_noob
@irrelevant_noob Жыл бұрын
1:17 Micheal? "more accurate" indeed. 😈
@bluestrue
@bluestrue 2 жыл бұрын
Ms Kathy, your videos are very informative and well made. Thank you so much.
@larrykent196
@larrykent196 2 жыл бұрын
Thank you, what a find. Those who contributed to the sciences, thir story has to be told. Nicely done. Cheers!
@qwerty90615
@qwerty90615 2 жыл бұрын
Very interesting how the facts don't seem to ever percolate to the surface. Well done. I'm a retired EE and son of an EE professor. Sadly, I do not find this at all surprising. I never heard of Tesla until I was 22, other than the magnetic field units, for instance.
@rolandmousaa3110
@rolandmousaa3110 2 жыл бұрын
Thank you for teaching us all.. GREAT!
@ghost-wm1hw
@ghost-wm1hw 3 жыл бұрын
Kathy. Your great . Love your info
@Kathy_Loves_Physics
@Kathy_Loves_Physics 3 жыл бұрын
Thanks Sean.
@annehubbard1321
@annehubbard1321 Жыл бұрын
I really liked listening to your lecture and as informative as you were, I was deeply happy with you as an endearingly sweet and quirky woman who reminded me of some of the most beloved in my family who, like you, always have something new for me to learn. Thank you, I look forward to watching more of your videos but now, as your subscriber.
@xerx35
@xerx35 3 жыл бұрын
Amazing stuff, I have used Wheatstone bridges in some of my designs, and it is amazing to know a bit of history on it. Please make more videos :P.
@Kathy_Loves_Physics
@Kathy_Loves_Physics 3 жыл бұрын
Glad you liked it. Am working hard on new videos but it is always slower than I would wish. (I have about 80 videos on KZbin for while you wait)
@ariedekker7350
@ariedekker7350 2 жыл бұрын
Thank you so much for bringing this video to me. Let the Lord bless you.
@davidclark3603
@davidclark3603 2 жыл бұрын
Absolutely brilliant again, thanks!
@DrPowerElectronics
@DrPowerElectronics 2 жыл бұрын
I was glad to see that you did make it clear that Wheatstone’s bridge is balanced. I so dislike the misuse of the term by so many students who must get it from their teachers. Measuring zero current is so much easier than an actual current as the linearity of the measurement does not matter. Knowing the lost in translation and loss of references is interesting. Germanic use of references is different, or so I have been told, by those who fail to reference my work.
@fwqkaw
@fwqkaw 2 жыл бұрын
8:25 Surely, Jacobi writes, "it is quite impossible that he should have had the least notice of my instrument"
@ergbudster3333
@ergbudster3333 2 жыл бұрын
Kath dishes the dirt on the convoluted electrical history. Love it.
@erwinespinosa7122
@erwinespinosa7122 Жыл бұрын
Love your lectures 😊. More power to you 😊😊😊
@brians.5434
@brians.5434 2 жыл бұрын
I love your content, knowledge and enthusiasm
@petergreenwald9639
@petergreenwald9639 2 жыл бұрын
Your videos are absolutely amazing.
@dbmail545
@dbmail545 2 жыл бұрын
The long coil variable resistors were in common use into the 1950's. I have salvaged several old Fire Alarm systems that used them to account for different numbers of fire horns installed.
@highpath4776
@highpath4776 2 жыл бұрын
I think I must have found from somewhere (maybe a battery charging circuit?) a crude variable resistor, being a copper wire wound around a piece of asbestos board about 3in by 7in. The wiper was conected to a slider the top edge of the bread slice board and the feed to the first wire in the low position on the board. Interesting
@allenstroud4236
@allenstroud4236 Жыл бұрын
Good job! You are a good teacher!
@alastairchestnutt6416
@alastairchestnutt6416 3 жыл бұрын
Thanks for another great talk. Wheatstone also invented the ABC telegraph, which had the advantage of not needing expert telegraph operators at each end. Continued to be used till the 1930's in remote island locations without telegraph operators. Wheatstone seems to have been a bit of a dodgy character.
@Kathy_Loves_Physics
@Kathy_Loves_Physics 3 жыл бұрын
Interesting. Yeah, he was dodgy, I should have used that term, perfect to describe him IMHO
@da8ish1
@da8ish1 2 жыл бұрын
do you know if they were ever used in the old west?
@frankdavis6894
@frankdavis6894 2 жыл бұрын
Alexander Bain invented the ABC Telegraph (it’s in the video) - Wheatstone plagiarised it. He also discovered the earth battery that transatlantic telegraphy uses.
@alastairchestnutt6416
@alastairchestnutt6416 2 жыл бұрын
@@da8ish1 Think just in United Kingdom. Was used in the Highlands and Islands as no need for expert telegraphers which was the drawback of the Morse system as it was used in practice.
@roberthigbee3260
@roberthigbee3260 2 жыл бұрын
Whatever you call it, the Wheatstone bridge had a huge influence in accurately measuring the surface stress in mechanical parts using strain gauges (resistance varies with the tension applied to a metallic wire). Today, and for a very long time, strain gauges are sold in a Wheatstone bridge array which will automatically compensate for fluctuations due the resistance change brought on by the thermal expansion or contraction of the metal to which the strain gauge array is affixed.
@gpwgpw555
@gpwgpw555 2 жыл бұрын
It also applies to electrical meters, Ex: Western Electric 22A transmission test set.
@tribulationcoming
@tribulationcoming 2 жыл бұрын
Very interesting development. Thanks for the history of electricity.
@davidhayward1426
@davidhayward1426 2 жыл бұрын
I had not heard this history before. Great video
@markcollins457
@markcollins457 Жыл бұрын
Hello Kathy, I'm not a total geek but I have to laugh hearing "Wheatstone Bridge" start my HVAC education in the 70's and soon after became a tech for Honeywell and offering classes on Honeywell products to contractors in the industry. The Wheatstone Bridge or reostat was a topic that was reviewed often . Thank you!
@dennishillman3502
@dennishillman3502 2 жыл бұрын
Well done. Thank you.
@dwainseppala4469
@dwainseppala4469 2 жыл бұрын
Practical uses of the Wheatstone Bridge include load cells and strain gages. Force and dimension change are able to be computed after gluing resistors to materials that will undergo stress. Being able to solve the Wheatstone bridge means you can make your own load cells on the cheap.
@glenmartin2437
@glenmartin2437 2 жыл бұрын
Thank you, Kathy. We still have colorful scientists!
@glennburt8360
@glennburt8360 Жыл бұрын
At 8:30 into the lecture I believe that there is a significant error pending your understanding of physics, but of the interaction between Jacobi and Wheatstone. Jacoby did not say that Wheatstone must have known about his instrument, in fact the opposite. he said it was "impossible the he should have had the least notice", which speaks to acknowledging that the idea was not stolen but done in parallel. He then goes on to in fact praise Wheatstone for discovering "a new method of measuring these current and of determining the different elements or constants, which enter into the analytical expressions, and on which depends the actions of any galvanic combination." He also acknowledges the sharing of valuable results from an yet published paper, again acknowledging Wheatstone. Not the words of a wounded ego, I think. Nor do I think negatively of your efforts here. The history was very well done.
@davidgray6999
@davidgray6999 2 жыл бұрын
When studying electrical engineering, students barely have time to learn about the Wheatstone bridge and it's applications; hardly have time to learn about this history. However, now that Kathy has done all this legwork, EE students should watch this. In physics classes, much more history is provided in general physical principles like what are electrons doing, and who and how they figured this out.
@jo5804
@jo5804 2 жыл бұрын
Thanks for sharing your knowledges. Greetings from Ecuador😘
@LikeDotAudio
@LikeDotAudio 2 жыл бұрын
This channel is so great
@wrightmf
@wrightmf 2 жыл бұрын
I remember college classes that had Wheatstone bridge circuits, my impression is professors use this bridge for circuit analysis problems for homework and exams. But other than that, nobody uses it. Then out into the real world becoming involved with jobs that have strain gages, that's where I saw the value of the Wheatstone bridge. There is very very little change in resistance in the strain gage itself, probably not enough to reliably measure without the Wheatstone bridge. With the bridge, it becomes easy to measure (of course need reliable low level volt meter and stable excitation). Strain gages can be fascinating considering they accurately measure stress in structures whether it be building I-beams, car frames, or force-moment balances.
@feraudyh
@feraudyh 2 жыл бұрын
It's interesting to follow up this video with the article on Wheatstone in the Wikipedia. At first sight the article gives credit to Cooke and Christie. Wheatstone was very prolific and worked on spectroscopy and acoustics as well.
@AxcelleratorT
@AxcelleratorT 2 жыл бұрын
Great video. This is exactly the period of electrical history that I am interested in. (I'm working on a suspended coil galvanometer right now) Liked and Subbed.
@mapifisher
@mapifisher 2 жыл бұрын
Kudos for your excellent videos!
@johnweiner
@johnweiner 2 жыл бұрын
Great Video! I first learned about the Wheatstone bridge in freshman physics: electricity and magnetism came right after mechanics and heat. Concerning Christie, sic transit gloria mundi. Christie was not the first nor the last to be unjustly forgotten by history because of unscrupulous self-promotors.
@johnbattista9519
@johnbattista9519 2 жыл бұрын
Thanks for making the video.
@Kathy_Loves_Physics
@Kathy_Loves_Physics 2 жыл бұрын
You are welcome
@SilverWrinkly
@SilverWrinkly Жыл бұрын
I've been to the Royal Society and read the minutes of the meeting where Wheatstone presented the bridge circuit to the other members. In the minutes he is quoted as saying that he would like to present to them, a circuit which was devised by, and given to him, (Wheatstone), by a Mr Christie.
@hughleyton693
@hughleyton693 Жыл бұрын
Interesting you mentioned a means of testing low resistance values. . . Quite some years ago, I designed and built a 10 Amp "Earth Resistance" Tester. . .. Recently I had a failed Inverter, it tripped all its Battery feed breakers.. . I tested its DC input resistance with my "Earth Resistance" tester that uses an internal 12V battery and accurate 1 Ohm resistor, and found the DC input to that Inverter was down to 0.028 Ohm.. . . Years earlier there was a break on a UK-USA Cable, the special time fault locator was out of action, so the UK pulled out an old Wheastone Bridge and measured the fault o just of the USA coast.
@qzh00k
@qzh00k Жыл бұрын
We used the principles for the wheat stone bridge to calibrate or certify many measurement tools but the most unique application was used in gas chromatography where using one leg measured heat loss from a gas sample stream while the other leg was maintained as a standard. It's more than a paragraph, real time process instruments are complicated
@qzh00k
@qzh00k Жыл бұрын
Look up Siemens industrial gas chromatography, there are others but that name is mentioned
@paullebel3967
@paullebel3967 3 жыл бұрын
Just wanted to say thanks for your Chanel for the information on science in regard of the history of the time, very informative 👍
@Kathy_Loves_Physics
@Kathy_Loves_Physics 3 жыл бұрын
You are welcome Paul. Glad you liked it.
@htooloo365
@htooloo365 2 жыл бұрын
“Prof. Wheatstone has shown me an instrument, found on exactly the same principle as mine... Now it is quite impossible that he should have had the least notice of my instrument.” Unless there is mistakes in the translation from German to English, the text suggested that Wheatstone has came up with the rheostat using Ohm law, and also that it is impossible for Wheatstone to see Jacobi' instrument prior. A simple explanation why you could not find Jacobi's rheostat drawing could be he has never published it, since he thought the rheostat was insignificant comparing to the motor. If I am not mistaken Wheatstone could not have seen it. May be some other ideas was lifted by Wheatstone, but for the rheostat, knowing Ohm law he could come up with it by himself.
@renerpho
@renerpho 2 жыл бұрын
"A simple explanation why you could not find Jacobi's rheostat drawing could be he has never published it" Such a drawing exists and he did publish it - check out the pinned comment.
@allanrichardson9081
@allanrichardson9081 2 жыл бұрын
In your Ohm’s Law video, you mentioned that just as the unit of resistance, the ohm, is represented by the Greek letter omega (Ω), its reciprocal, the unit of conductance, the “mho,” is represented by an inverted omega. Some years ago, the unit of conductance was officially renamed the “siemens,” after the German inventor and founder of the Siemens company. In the 1960s I remember that the sensitivity of voltmeters was still expressed, at least in the US, in “micromhos.”
@77thTrombone
@77thTrombone Жыл бұрын
This is my 2nd video of this Kathy person. She's certainly got a good angle on tech, and she tells a good story! During the first video, the thought occurred, as my orbital muscles fatigued from tracking all the left and right motion across the bottom of the screen: would young Kathy be able to talk if someone tied her hands? 0:02 I got
@generalingwer4341
@generalingwer4341 2 жыл бұрын
The bridge was a excellent idea.its been awhile since ive used one though.i love your topics.ie ohms law the rosetta stone of electronics as far as im concerned.great job.
@RobiBue
@RobiBue 2 жыл бұрын
This is kind of funny… during my apprenticeship in industrial electronics back in the early 1980s, I had never heard of the Wheatstone bridge (or balance) even though we used it for several theoretical calculations and practical measurements… I even used it later in the late 80s for electronic leveler adjustments. That is, until 2012-ish when I interviewed with a company and drew a Graetz bridge (actually invented by Karol Pollak) and the guy performing the interview called it a Weyermann bridge… I told him I had never heard of that definition before, but that I would take his word for it (I actually didn’t and looked it up and came across the Wheatstone bridge… never told him that he had both the name and the type of bridge wrong though) but for a good 30 years I never knew the name Wheatstone bridge… Thank you for the interesting story of Christie, Wheatstone, Cooke, Jacobi, Siemens, et.al.
@Bialy_1
@Bialy_1 2 жыл бұрын
Pollak patented his invention in 1895 in Britain and in 1896 in Germany so i find it interesting that Pollak invention is named after German scientist that published papper about it in 1897... In German or Russian article on wikipedia about that bridge there is not even a single word about Pollak. In English article there is information that Greatz invention was fully independent, i would like to learn how they confirmed that he did not know about something that was allready patented in his country year before he wrote about it...
@talideon
@talideon 2 жыл бұрын
17:58 - correction: Lord Kelvin was Irish. However, he spent his formative years after his father was made a professor of mathematics in Glasgow, and when he was ennobled, it was with a Scottish lordship. This is why he sometimes mistakenly gets called "Scottish".
@hughofIreland
@hughofIreland 2 жыл бұрын
I knew someone else would catch this one! I love these videos. Keep it up, Kathy!
@fogrunr5075
@fogrunr5075 Жыл бұрын
I really love your channel!
@diarmuidbuckley6638
@diarmuidbuckley6638 Жыл бұрын
Not so many people know that Wheatstone has a patent on the concertina, which is a 'squeezebox' musical instrument , a button accordion. These instruments depend on metallurgy to work, but it is not clear how much prior work was done
@mycosys
@mycosys 2 жыл бұрын
8:27, the Jacobi quote you highlight says the opposite of what you state. Jacobi says it is improbable for Wheatstone to have known (had notice of) of his instrument, ie he thinks it was an independent invention, though later.
@peterbonucci9661
@peterbonucci9661 2 жыл бұрын
You should also cover Oliver Heavyside. He was involved at this time and people don't talk about him enough. You could also talk about how the Heavyside transform became known as the Laplace transform.
@Kathy_Loves_Physics
@Kathy_Loves_Physics 2 жыл бұрын
He’s on the list but it is a very long list
@cherubin7th
@cherubin7th 2 жыл бұрын
This is why many researchers today do flag placing and upload their first draft to Arxiv. So that they can show they are first.
Ohm's Law: History and Biography
18:22
Kathy Loves Physics & History
Рет қаралды 546 М.
History of 3-phase Electricity & Distribution
25:46
Kathy Loves Physics & History
Рет қаралды 1,1 МЛН
Smart Sigma Kid #funny #sigma
00:33
CRAZY GREAPA
Рет қаралды 10 МЛН
The Ultimate Sausage Prank! Watch Their Reactions 😂🌭 #Unexpected
00:17
La La Life Shorts
Рет қаралды 8 МЛН
High-voltage physics - with David Ricketts
1:16:54
The Royal Institution
Рет қаралды 533 М.
How a Wheatstone Bridge Works - DC to Daylight
12:33
element14 presents
Рет қаралды 10 М.
Testing the US Military’s Worst Idea
24:39
Veritasium
Рет қаралды 13 МЛН
James Joule Biography: The Beer Brewer Who Changed The World
12:54
Kathy Loves Physics & History
Рет қаралды 70 М.
History of Maxwell's Equations #1: Gauss' Law
35:43
Kathy Loves Physics & History
Рет қаралды 178 М.
What is Quantum Tunnelling?
40:06
Physics Explained
Рет қаралды 282 М.
Surprising History & Physics of the AC Transformer
54:50
Kathy Loves Physics & History
Рет қаралды 149 М.
Magnetic, Electric Fields & EM Waves: History and Physics
27:07
Kathy Loves Physics & History
Рет қаралды 76 М.
Smart Sigma Kid #funny #sigma
00:33
CRAZY GREAPA
Рет қаралды 10 МЛН