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 "It is hard for one to believe that there
is room for
further reduction in size and weight from what we are accustomed
to today." So wrote Radio & TV News magazine editor William Stocklin
in 1958. It was a decade after invention of the transistor (1948), and the first
integrated circuit had not yet been developed (Robert Noyce, 1959), but even so
it seems fairly short-sighted for a major electronics magazine editor. While being
amazed at the shirt-pocket-size transistorized radio and hearing aid, he still found
hope for the future of miniaturization of vacuum tubes, such as diodes recently
released by General Electric that would "fit into the shell of a standard type of
transistor." Sure, it is easy in hindsight...
 "A transistorized i.f. stage for a TV set
can be built today to fit into a match box. But
molecular electronics has made possible the production of a device
that contains two such stages and is only a fraction of the size of a single transistor!"
Nobody talks of molecular electronics today, but that really is an accurate term
for what we have when compound semiconductors like GaAs, GaN, or any of the many-atomed
exotic photovoltaic substrates are being discussed. When referring to pure elements
like silicon that are being doped with impurities, I'm not sure those structures
are considered molecules which, according to Dictionary.com, are "the smallest physical
unit of an element or compound, consisting of one or more like atoms in an element
and two or more different atoms in a compound..."
 Here is a quick
Hi-Fi Quiz for all you audiophiles out there. Although it appeared
in a 1955 issue of Radio & Television News magazine, save for question
#10 all of Q's and A's still apply to today's equipment. Even that one
can be easily guessed. Q4 might seem a bit foreign, but think of the "groove" type
as applying to 78, 45, or 33-1/3 rpm platters and you'll do OK. Question #7
could be a baffler (pun intended - you'll see how) were it not for one obviously
invalid option that it takes an RF guy (or gal) to recognize its inanity. Good luck.
BTW, I missed Q1, but should have known better...
 Just in time for Halloween, John T. Frye's
teenage sleuths
Carl & Jerry unexpectedly recorded a late-night conversation
between two men where they plot how to dispose of the "body" when death occurred
as a result of prolonged choking. Employing their trademark technical prowess and
scheming ability, the pair sets a trap for the perpetrators and dutifully summon
the authorities as they complete their nefarious act of the night before. Halloween
comes into play because the recordings were made for use in creating sound effects
during the reading of Edgar Allen Poe's "The Pit and the Pendulum" and "The
Cask of Amontillado." This story, which appeared in a 1955 issue of Popular
Electronics magazine, is a little dark compared to a typical story...
 Yeah, I thought the same thing... a "Wamoscope?" Was it produced by the Wham-O toy company that makes
the Hula Hoop, the Frisbee, the Super Ball, and Silly String? Wham-O was founded
in 1948, and this article appeared in a 1956 edition of Radio & Television News
magazine, so why not? Actually, Wamoscope is derived from "WAve-MOdulated oscilloSCOPE."
Developed by Sylvania Electric Products, it combined a traveling-wave tube with
a cathode ray tube in single enclosure. That enabled microwave signals to be fed
directly to the CRT for amplifications and processing. Evidently the idea did not
catch on since the market was never filled with Wamoscope sets. A brochure for Sylvania's
6762 Wamoscope is shown at the bottom of the page...
 This is the first of a two-part series on
the move of the
WWV transmitter stations operated by the National Bureau of Standards
(now called National Institute of Standards and Technology) from Greenbelt, Maryland,
to Boulder, Colorado. WWV Part II appeared in the February 1967 edition of the ARRL's
QST magazine. WWV began transmitting time / frequency standards in 1920
in order to provide a means for remote stations and laboratories to calibrate local
standards that would prevent transmitting stations from interfering with each other.
Although most people don't realize it, the 60 kHz signal that their 'atomic'
clocks and watches use to self-adjust time emanates from the WWVB antenna in Boulder.
This first installment of the article discusses the history and rationale for relocating
the WWV facility...
 According to the Wikipedia entry, Cannon
Electric Company introduced the now-familiar D-Sub (D-subminiature) connector format in 1952. This advertisement in
a 1954 issue of Radio & Television News magazine is the first one I recall seeing.
D-Sub connectors were a really big deal back in the 1980s when personal computers
(PCs) first appeared. CRT monitors used them, printers used them, scanners used
them, network interfaces used them, mice and keyboards used them (those that didn't
use PS/2 connectors, which were an invention of IBM for their Personal System 2
computers). Nowadays the USB (Universal Serial Bus) and HDMI (High-Definition Multimedia
Interface ) connectors have replaced most D-Subs in the computer cable realm. Of
course with everything going wireless, connectors and cables of all sorts are rapidly
disappearing except those used for charging...
 This is another example of one of those
advertisements you likely would not see in a modern electronics magazine.
There is nothing fundamentally problematic about its content or message, but politically
correct standards would condemn any depiction of a woman expressing such excessive
appreciation for a man's efforts. It might, after all, convey the idea that
all television antenna servicemen should expect such treatment from all women. It
also implies that only men can be TV antenna servicemen / servicepersons. If that
sounds nutty, well, what can I say. It's the world we live in as evidenced by
news items of late. Keep firmly in mind that what is accepted as a social norm today
might be considered to be a crime in a few decades, so exercise caution in all you
do in the presence of witnesses be it written, videoed, spoken, or acted out...
 Robert Balin created many quizzes for
Popular Electronics magazine during the 1960s and 1970s. Topics included
series circuits, electrochemistry, electronic analogy, electronic coupling, electronics
analogy, audio, electronic units, capacitor circuits, AC circuit theory, magnetic
phenomena, electronics geography, electronic noise, plugs and jacks, electronic
switching, diodes, and many more. This "Electronics Physics Quiz" is the 59th that I have posted. It challenges
you to name the effects that were first noticed as the result of unexpected actions
during laboratory experiments. Many of the names, as you might expect, eponymously
honor their progenitors. My score was 80%...
 Joe Cahak, owner of Sunshine Design Engineering
Services, has submitted another fine article for posting here. Joe has many years
of automated RF testing experience to leverage when writing this paper on making
measurements with scattering parameters (S-parameters) involved. He begins, "In many RF and Microwave measurements
the S-Parameters are typically expressed in dB (decibels) Magnitude units and Degrees
in the polar coordinate system. Network and Vector Network Analyzers and Spectrum
Analyzers all measure with voltage ratio measurements, so to convert to dB in terms
of volts we must use the following equation. The Spectrum Analyzer is a frequency
discriminating detector that detects the voltage for the signal. It will give the
amplitude of signal as a function of frequency. It is scalar in measurement dimension
magnitude...
 Sam Benzacar, of Anatech Electronics, an
RF and microwave filter company, has published his June 2026 Newsletter that, along
with timely news items, features his short op-ed titled "Millimeter-wave
5G: Physics Didn't Get the Memo." In it, Sam discusses how the wireless industry's
present-day talk regarding millimeter-wave 5G operating above 24 GHz sounds
a lot like the big plans it had for ubiquitous gigabit connectivity with micro base
stations located on every street corner that would assure continuous coverage. It
never materialized. The physics issues with above-24-Ghz path loss, shadowing, handset
(i.e., phone) construction, etc., will greatly affect the service's usefulness.
New items include SpaceX telling the FCC to scrap its Rural...
 The world's first electric wristwatch
went on sale on January 3, 1957 - the Ventura model, by Hamilton Electric, and it
retailed for $200. I use the event as the theme of the RF Cafe logo for that day
in history. Unlike today's electric watches which use a crystal for timing,
the early watches used a pulsed motor to energize the balance wheel coil, in place
of a mainspring and an escapement mechanism. Some "atomic" wristwatches today like
the Casio Waveceptor (<$40) use the WWV signals from Boulder, Colorado, to synchronize
the time with world standards. The watch shown in this article from the February
1958 edition of Radio-Electronics magazine is a model 500, which you can find more
detail about on the Unique Watch Guide website...
 RF Cafe visitor Mike M. sent this very
interesting note after reading this "Frequency Modulation Fundamentals" article: Again, you hit it
out of the ballpark, Kirt! Great article out of QST magazine. Absolutely
accurate to credit "The Old Man" Edwin Armstrong for the invention/development of
FM and much more, plus the work of Dan Noble, who worked with the Connecticut State
Police and Motorola as Director of Research. Also many, many others. Some that have
never been properly credited. Guys like Bob Morris, W2LV and Frank Gunther, W2ALS.
They were both interviewed by Ken Burns for "Empire of the Air". I was fortunate
enough to talk to both of these guys after I got my Tech license in 1970. My immediate
supervisor/mentor from 1972 until he retired in ~1990...
 Today has been a busy day, so a couple
electronics-themed comics from issues of vintage Radio &
Television News magazines help to relieve the stress a bit. I could never figure
out why these comics were buried deep inside most issues at the ends of article
continuations. These two were on pages 88 and 93. The top one is meant to demonstrate
just how obsessed the public was with the relatively new television phenomenon -
just look at what they chose to ignore on the display TV in order to get a peek
at the inside workings of a television set. The other comic, while clever in its
intent, would never pass editorial muster in today's world because of the great
hazard it represents...
 Do you remember your first calculator -
electronic, that is (slide rules and abacuses don't count - actually they do, right?)?
Mine was acquired sometime in the fall of 1976 during my first attempt at secondary
education at Anne Arundel Community College in Maryland, where eventually, in 1987,
I was awarded an Associate's degree in Engineering (which constituted the first
two years of my eventual BSEE at UVM in 1989, on whose notable alumni list I am
not). My name is not in AACC's list of notable alumni, either. But I digress. My
calculator was a Texas Instruments model SR-50 that had a small red LED display.
It cost about $100 ($445 in today's inflated money...
 You genius types might not be able to relate
to the rest of us who read articles like this one entitled "Fundamentals of Color TV: The NTSC System" and are in awe of minds
that conjure such things as the NTSC System and then build, refine, and perfect
working hardware. Making the system backward-compatible with existing black and
white (B&W) signals added to the complexity and cleverness of the solution -
akin but more sophisticated than compatibility of stereo with original mono radio
transmissions. When catchy marketing slogans like the familiar (to old folks) RCA
television advertisement claim of "Before you see the color ... Your ColorTrak System
grabs it, aligns it, defines it, sharpens it, tones it ... and locks the color on
track," what it actually means is that a very smart bunch of engineers and scientists
spent a lot of time and money designing...
 San Francisco Circuits, a leading printed
circuit board fabrication and assembly supplier serving commercial and defense markets,
describes how
Military-grade printed circuit boards (PCBs) are designed for environments where
failure is not an option. Standards like MIL-PRF-31032, MIL-PRF-55110, and MIL-PRF-50884
define stringent requirements for materials, fabrication, testing, and traceability,
ensuring boards perform reliably in extreme conditions. These specifications guide
engineers and manufacturers in creating PCBs that withstand temperature extremes,
vibration, shock, and humidity far beyond commercial standards. MIL-PRF-31032 serves
as the modern umbrella specification, covering rigid, flexible...
 Welcome to the
RF Coaxial Connectors
Quiz, an essential module for any engineer or radio hobbyist focused on maintaining
interconnect integrity across their signal chain. Whether you are standardizing
your station hardware, troubleshooting high-frequency signal leakage, or verifying
the physical port interfaces for your test bench equipment, a thorough understanding
of coaxial connector characteristics - from the rugged reliability of the Type N
to the precision of the SMA - is vital. This assessment challenges your proficiency
in connector selection, exploring the differences in mating mechanisms, cutoff frequencies,
constant-impedance geometries, and the practical environmental...
 This could be one of the earliest reports
of
mobile communications between a private automobile and a home
base station. Using a personally designed and installed 5-meter transceiver both
at home and in his car, Mr. Wallace is able to talk to his 12-year-old son
on the way from work. My guess is that in 1935 there were not too many traffic jams,
even in Long Beach, California, so it is doubtful that was the cause for his announced
expected later-than-normal arrival home. The article states the automobile power
supply needed to produce 300 mA of current at 525 V, which is ~160 W
per Ohm's law, which seems unlikely considering car batteries were 6 V
at the time, and that would work out to ~26 A. My question is whether little
Billy possessed a license permitting him to talk back to dear old dad from the home
station...
 Prior to the International Geophysical Year
(aka IGY, which ended up running for a year and a half), spanning from July 1, 1957,
through December 31, 1958, not a lot was known about the upper atmosphere. May 1946,
when this article appeared in Popular Science magazine, was less than a
year after the end of World War II. During the war a lot was learned about
long distance wireless (radio) communications between and across continents and
ship to shore. Scientists theorized about the phenomenon of
charged particles at high altitudes which, being electrically conductive, could
reflect electromagnetic signals so that over the horizon signals could be exchanged.
Coincidence with sunspot activity and aurorae had already been established, but
more knowledge was needed. Rocket...
 This photo of Bell Telephone Labs' three
scientists, G.L. Pearson, D.M. Chapin, and C.S. Fuller, inventors
of the "Bell Solar Battery," reminds me of the very familiar shot of John
Bardeen, Walter Brattain, and William Shockley huddled over their point contact
transistor in December of 1948. The "battery" terminology is an interesting
choice since we normally think of a battery as a charge storage device, but in fact
a battery is fundamentally a charge creation device. A secondary battery may be
recharged by reversing the depleted chemical (or other) process that generated the
initial charge, but it first created the potential via a basic charge separation
process. What we today refer to as a solar cell is a form of primary battery that
is not rechargeable. Just as some chemical batteries (cells) are reactivated by
replenishing the electrolyte, the solar cell is replenished by photons giving up
their energy to the semiconductor substrate...
 Here is the final installation of a 22 part
series entitled "The Saga of the Vacuum Tube," by Gerald Tyne, that appeared in
Radio News magazine in 1946. Part 1 was printed in March 1943. The collective
contents, which covered the development of the vacuum tube from its conception to
the end of World War I, could have been published as a stand-alone book. Author
Gerald F. J. Tyne presented the series to trace the development which
took place up to the end of World War I along a particular branch of the network
of roads which led to the modern radio tube. He traced the evolution from studies
of the interactions between heat and electricity as pursued by the early philosophers
and by the physicists who followed them (Lee de Forest, et al). These limitations
have been...
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The RF Cafe Homepage
Archive is a comprehensive collection of every item appearing daily on this
website since 2008 - and many from earlier years. Many thousands of pages of unique
content have been added since then.
 Continuing with the series on capacitor
types, particularly dielectric material, this July 1965 Electronics World
magazine article reports on glass materials used by Corning Glass Works. Glass dielectrics
are popular for aerospace and space applications because of their tolerance for
high radiation levels found in regions not protected by the Earth's atmosphere.
Glass compound consistency provides for mass producing values with tight tolerances
and exceptional parameter tracking over temperature. High "Q" values and low loss
at extreme temperature and high frequency (at the time) made them the component
of choice by missile and satellite designers. 0.5 pF through about 0.01 μF
is the typical value range for
glass dielectric capacitors. Author Archer Martin mentions radiation exposures
of 1018 NVTth, which appears to be a measure of neutron flux exposure, but I could
not find a good definition of the term ("NVT," without the "th" is used here)...
 "And there is nothing new under the sun."
- Ecclesiastes 1:9, NKJV (did you know that is the origin of the saying?). This
1930 editorial by Radio-Craft editor Hugo Gernsback describes a coordinated
scam perpetrated by radio manufacturers to compel consumers to buy new sets rather
than have their existing sets repaired; such schemes persist today. In short, retail
prices were inflated to accommodate a built-in "trade-in" allowance that far exceeded
the repair cost or used radio cost. Radio service shops were getting the short shrift
because many people who might have otherwise elected to have repairs made would
instead trade in the old set for a new one. That a conspiracy was underfoot was
evidenced both by the practice of destroying traded-in sets so they cannot be used
again (similar to the Cash for Clunkers program where engines were destroyed after
trade-in), and by making it difficult or even impossible for repair shops to obtain
adequate technical documentation...
 This being an April issue of Popular Electronics
magazine, I am not sure whether this is an April Fools gag article of the real McCoy.
The Iron Curtain was in full force, the Cuban Missile Crisis was a mere five years
earlier and the Gary Powers U-2 incident just seven years hence, so anything related
to the USSR (aka Soviet Union) was considered mysterious and possibly nefarious.
Seeing Ruskie text was a real attention-getter. The article entitled "НЕОБЫЧНАЯ
ТЕЛЕВИДЕНИЕ АНТЕННА" reportedly appeared in the April 1966 issue of the Soviet Union's
"Radio" magazine (still in print). I did a search for it and could find the March
and June 1966 issues, but not April. BTW, if you plug the Russian text into the
Duck Duck Go translator, it does indeed come back with "Unusual TV Antenna," just
as author Joseph Zelle claimed in 1966. Now, as to whether the article's claim is
legit or not, I can't say...
 It hasn't been just Miss America contestants
that have wished for world peace over the years. In April 1967, this article entitled
"World
Peace and Amateur Radio" was published in Popular Electronics magazine
extolling the efforts of Ham radio operators in attempting to break through communications
barriers erected by governments. Amateur signals could reach into the USSR, Cuba,
China, North Korea, and all the other hopelessly oppressed regions of the world
- even Chicago ;-) - to let people know that there is hope beyond the Iron Curtain
of Communism. This particular story reports on one Ham's outreach to the people
of Japan which, fortunately for them, was not a member of the "Red club." When this
article was first posted in 2013, Yemen and North Korea prohibited amateur radio
communications with the United States. According to the FCC website, there are currently
no countries on the banned list...
 Even with the ready availability of
programmable calculators and smartphone apps, there are still times when having
a handy-dandy
nomograph printed out and hanging on the wall for quick reference can be a
great asset. This nomograph which appeared in a 1965 issue of Electronics
World magazine provided ready conversion between two different (input and
output) voltage and power values to equivalent decibel values. It seems strange
that the watts and voltage scale is on the left and the milliwatts and
millivolts scale is on the right. That might be more intuitive for a nomograph
of attenuation, but not - at least to me - for positive gain as through an
amplifier...
 This custom
Wireless Engineering themed Crossword Puzzle for September 11th, 2022, is brought
to you by RF Cafe. All RF Cafe crossword puzzles are custom made by me,
Kirt Blattenberger, and have only words and clues related to RF, microwave, and
mm-wave engineering, optics, mathematics, chemistry, physics, and other technical
subjects. As always, this crossword contains no names of politicians, mountain ranges,
exotic foods or plants, movie stars, or anything of the sort unless it/he/she is
related to this puzzle's technology theme (e.g., Reginald Denny or the Tunguska
event in Siberia). The technically inclined cruciverbalists amongst us will appreciate
the effort. Enjoy!
 Not many people are still using
analog meters for making voltage, current, resistance, and power measurements
these days; however, for those who are and even for those using digital readout
meters, there are valuable lessons to be learned from this article on factors that
can affect the accuracy of your measurements. Whenever you make a measurement with
any kind of instrument, the first step to take in minimizing the chances of inaccurate
readings is to be certain the instrument is in good working order and is known to
be reasonably accurate. If it is battery powered, know that low battery voltage
can cause erroneous readings in both analog and digital meters, so beware. If you
are making a measurement to verify a known entity and the reading is correct, then
there is little reason to suspect that anything is wrong with your meter. If a reading
is way off from what you expect to see, then verify the accuracy of your instrument
before going any further lest...
 Doppler radar is familiar to most people
these days mainly because of the weather reports available online and on television
reports. Not many actually understand the principle behind it, though. A handful
can tell you that in sound form it is the frequency shift phenomenon that occurs
when a train goes by while blowing its horn. Almost none could say why or how it
is useful in detecting storm systems or for tracking aircraft. This 1959 Popular
Electronics magazine article attempts to explain Doppler radar to the uninitiated.
Having worked as an air traffic control radar technician in the USAF, and then having
done the RF and analog system circuit design for a prototype Doppler weather radar
as an engineer, I have had a lot of exposure, but I am by no means an expert...
 Always creating and pushing the leading
edge of communications technology, Bell Telephone Systems and their research group,
Bell Telephone Laboratories, frequently ran full-page promotions in many types of
magazines, from electronics industry publications like the 1952 issue of Radio-Electronics,
to domestic rags like Woman's Day and Better Homes and Gardens. In this instance,
Bell Labs was justifying its continued use of the original open-wire telephone line
distribution systems using poles with individual pairs rather than the newer multi-pair
cables that carried sometimes hundreds of circuits in the space of a few square
inches of cross-section, and in a protective sheath that guarded against signal
interference and weather degradation. An entire volume of the Bell System Technical
Journal (BSTJ) was published on the
Type-O (open wire) Carrier System in the same year this ad appeared. It basically
came down to economics based on the fact that so many thousands of miles of the
old lines in existence performed adequately well, and new technology allowed two
or more circuits to co-exist on the same twisted pair...
 Securing confirmation of having made a contact
(QSL in ham-speak) with a radio operator behind the communist Iron Curtain was a
real achievement during most of the 20th century. Russian and Chinese citizens were
routinely imprisoned for such activity, and if you did manage to elicit a response
to your CQ (request for contact), there was a good chance it was with a government
propagandist posing as a civilian. When
Sputnik 1 was put in orbit on October 4, 1957, a whole new realm of DXing
(long distance communication) opened up by providing satellite relay paths. Sputnik 1,
the world's first artificial satellite, broadcast a series of pulses at 20.005 and
40.002 MHz that were tracked and reported by both professional and amateur
radio operators. Vital data was learned based on the time and strength of signals
that allowed scientists to ascertain the physics of upper atmosphere characteristics...
 This is another Radio Service Data Sheet
that appeared in the March 1936 edition of Radio-Craft magazine. I post
this schematic and functional description of the
Crosley Model 555 (A.F.M.) 5-Tube 2-Band Superhet radio manufacturers' publications
for the benefit of hobbyists and archivists who might be searching for such information
either in a effort to restore a radio to working condition, or to collect archival
information. As mentioned previously, manufacturers usually did not provide this
data to anyone other than an authorized service shop, so making it available via
the magazine was a huge benefit to repair shops and do-it-yourselfers. Unfortunately,
not very much textual content was included with the schematic. It was part of a
group of seven different models (see table of contents), and not much more than
the schematic was provided for each...
 "Transistor Topics" was a monthly column
in Popular Electronics magazine that helped introduce and educate readers
to/on the relatively new topic of transistor design and troubleshooting. Transistors
were first invented in December of 1948, but it took about a decade before they
were reliable and inexpensive enough to be integrated into a large variety of products
- and affordable to the hobbyist. Editor Lou Garner often presented questions from
readers and answered in layman's terms. This month's question came from a reader
in Bogota, Columbia, which in 1960, was a big deal. Nowadays we take for granted
how small the world is due to the Internet. Aldens department store is mentioned,
which I remember moving into a shopping plaza next to Hechinger lumberyard and home
center in Annapolis, Maryland, sometime around 1970...
 I am always amazed when reading articles
like this one on "The
Art of Xerography" at how the engineers and scientists who develop these system
manage to think up the processes and materials required to make everything work
so well, and then to make it manufacturable on a mass basis. How did Chester Carlson
discover that dyed lycopodium powder, made from creeping cedars, sprinkled over
a waxed paper plate would create the likeness of an original image - after, of course,
rubbing a sulfur-coated metal plate with a handkerchief and quickly exposing the
plate to light transmitted through the glass with a pattern on it? Electrostatics
eventually came to play a big role in high volume printing, as described here. I
saw a video one time (can't find it now) of a high voltage and chemical processed
used on thin aluminum sheets used in newspaper printing up through the 1970's for
making masters. My father worked at The Evening Capital newspaper in Annapolis,
Maryland, and I remember back in the 1960's walking through the printing press area
and seeing operators pounding away on typesetting machines that assembled the lead
die into lines of text, and from there the entire process up through actual printing
and folding of the newspapers. From around 1970 through 1974, I delivered those
papers in my neighborhood on my bicycle. The subscription cost was a whopping $2.10
per month...
 Every time I see one of these articles on
"modern"
medial electronics it makes me think of the Star Trek IV movie titled, "The
Voyage Home," wherein Dr. McCoy (aka "Bones") intervenes as a 20th century brain
surgeon is about to operate on Chekov - "My God man, drilling holes in his head
is not the answer!" The 1948-vintage electrocardiograph featured in this Radio-Craft
magazine article looks like it was built from parts salvaged from World War II
field gear. Having a doctor attach wires to you is scary enough, but back when the
probes were powered by instruments using circuits with 200-300 volts of plate
bias in them would add an extra level of anxiety. BTW, have you ever wondered how
"star dates" in Star Trek were determined? As it turns out, the system has not been
consistent throughout the series from television and the movies then back to television.
It began as a random number to avoid needing to specify a particular century...
 Maybe given the nature of the newly introduced
Popular Electronics magazine (this was only the third issue), the editors
decided using a big word like "nomograph"
might be a little too out of the realm for use in a magazine seeking to appeal to
newcomers to the electronics field. It is a little surprising since students of
the day were quite accustomed to using this type of a graph since computers still
filled entire rooms and hand-held calculators went by a different name - slide rules.
In fact, because of a familiarity with using a slide rule, people were more accustomed
to having to shift decimal points to the left or right first to do the calculation
on a device that only displayed values in a single decade range, and then to arrive
at the final answer after the calculation. That is exactly the skill needed to use
the nomograph. I guess that people today - even engineers - would have a harder
time keeping track of powers of 10 than... |
