Debunking 106.1 mph (April Trains)

h2fe9x2

 

Conclusions

If speeds up to 90 miles per hour could be practiced on a level road with an ordinary train, although on special circumstances resulting from a question of prestige and from the need to compete for the same traffic with a rival road, the PRR, this with heavier, longer and older trains than the Scott Special, then why is so difficult to believe that a 100 mph run could be achieved with a lighter train on a special run? One made with a single paying lunatic like Dead Valley Scotty and with a clear road ahead of the locomotive, not an ordinary run with hundreds of “innocent” passengers! And this is not physics talk. This is only to put things in perspective, considering what the technology of the day could actually do. If this 100 mph run was an impossible accomplishment, one that cannot be easily refuted by the laws of physics, then believing in this can only result from a preconceived idea, and probably it is just that: a question of belief (and a pointless one).

Well, apparently the one person that does not like numbers is Mr. Hankey itself, because this information (and a lot more) was made public at the time in technical (and reliable) publications of the day. One has only to research a little and study properly what we encounter.

 

 

References (supporting the information posted here and on the previous post)

 

-          Maclean, Magnus, “Physical Units”, London, Biggs and Co., 1896

-          Cotterill, J. H., “The Steam Engine”, Third Edition, Spon & Chamberlain, 1896

-          Smart, R. A., “Performance of a Four-Cylinder Compound Locomotive”, Purdue University, paper presented before the St. Louis Railway Club, February 11, 1898

-          “Vauclain System of Compound Locomotives: Description, Method of Operation and Maintenance”, Baldwin Locomotive Works, Burnham, Williams & Co., 1900

-          “The Pennsylvania System at the Louisiana Purchase Exposition: Locomotive Tests and Exhibits”, the Pennsylvania Railroad Company, 1905

-          “Report of the Proceedings of the Thirty-Ninth Annual Convention of the American Railway Mechanical Association”, Atlantic City, NJ, June 1906

-          “Measuring Tools”, Third Edition, Machinery’s Reference Book No. 21, The Industrial Press, 1910

-          Heck, Robert, “The Steam Engine and Turbine”, D. Van Nostrand Company, 1911

-          Clayton, J. P., “The Steam Consumption of Locomotive Engines from the Indicator Diagram”, University of Illinois Engineering Experiment Station, Bulletin No. 65, January 1913

-          “Report of the Proceedings of the Forty-Sixth Annual Convention of the American Railway Master Mechanical Association”, p. 282-285, Atlantic City, NJ, June, 11-13, 1913

-          Wood, A. J., “Principles of Locomotive and Train Control”, McGraw-Hill Book Company, 1915

-          Tuttle, Lucius, “The Theory of Measurements”, Jefferson Laboratory of Physics, Philadelphia, 1916

-          Cole, F. J., Chief Consulting Engineer of the American Locomotive Company, Train Resistance in “Locomotive Hand-book”, American Locomotive Company, 1917

-          Schmidt, E. C., and Dunn, H. H., “Passenger Train Resistance”, University of Illinois Engineering Experiment Station, Bulletin No. 110, December 1918

-          Shealy, E. M., “Steam Engines”, McGraw-Hill Book Company, 1919

-          Davis, W. J., Jr., “Tractive Resistance of Electric Locomotive and Cars”, General Electric Review, Vol. 29, pp. 685-708, October 1926

-          Johnson, R. P., Chief Engineer of the Baldwin Locomotive Works, “The Steam Locomotive”, Simmons-Boardman Publishing Company, 1942

-          Kalmbach, A. C., “Railroad Panorama”, Kalmbach Publishing Company, 1944

-          Hay, W. W., “Railroad Engineering”, Second Edition, John Wiley & Sons, 1982

-          Davis, R. S., “Recalibration of the U.S. National Prototype Kilogram”, Journal of Research of the National Bureau of Standards, Vol. 90, Number 4, July-August 1985

-          Davis, R. S., “New Assignment of Mass Values and Uncertainties to NIST Working Standards”, Journal of Research of the National Institute of Standards and Technology, Vol. 95, Number 1, January-February 1990

-          Avallone and Baumeister III (editors), “Standard Handbook for Mechanical Engineers”, Tenth Edition, McGraw-Hill International Editions, 1997

-          Hugh, W. C., and Steele, W. G., “Experimentation, Validation, and Uncertainty Analysis for Engineers”, Third Edition, John Wiley & Sons, 2009

h2fe9x2,

In your quote above, you ask why the AT&SF speed record is so difficult to believe.  I don’t think that it is difficult to believe so much as there is a refusal to believe it.  There is a widespread bias that nothing great that happened until the modern era of railroading.  These early speed records are a serious threat to that school of thought.  Obviously, Mr. Hanke began with the pre-existing belief that the AT&SF speed record was false before he set out to “prove” that was the case.  

Mr. Hanke says there are three reasons not to believe the claimed speed record:

1)      It fairly reeks of wishful thinking and corporate spin.

2)      There is no credible scenario in which the railroad (or anyone on the train) could have accurately timed that feat.

3)      It was physically impossible. 

People defend Hanke by saying that the record cannot be proven one way or the other.  That is true, but that is not what Hanke is saying. 

So, thanks for your effort in making a technical review of the physics of the debunking.  I would say that you have debunked author Hanke’s invocation of the laws of physics, and restored the AT&SF speed claim as standing free of bunk.    

The main point that I see is that 106 mph is not all that difficult to believe.  If the claim was 206 mph, debunkers would have a lot more to work with.  But splitting hairs over 106 mph more than a century latter seems like sour grapes.  It seems petty.   

Hanke hangs his debunking hat on the laws of physics, and concludes that a speed of 80-90 mph is all that was attainable.  However, on the previous page, the Professor of Applied Thermodynamics, Heat Transfer, and Applied Mathematics has set 100 mph as plausible.  But perhaps more importantly, he refutes the claim that the laws of physics can be directly applied to come up with a certain answer, as Hanke claims to have done.  

oltmannd

Bucyrus:

 

 

There is no middle ground when it comes to debunking.  Either you debunk the speed claim or you don’t. 

 

There really isn't an "is" or "is not" with this stuff.  It's just about trying to see how bright or fuzzy the lines are you can draw.  

Also, the burden of proof is generally on the "bunk"-er, not the debunker.  

"My Toyota Camry went 273 mph on my way to work today".  Can anyone prove that it didn't?

I understand your point.  The record claim itself is beyond the point of being proven or disproved.  So we are free to believe it or not.  But issue is that Hanke claims to have debunked the ATSF record.  That is an impossible burden, as you point out.

To me, the most interesting aspect of this controversy is why there should be such a desperate need to debunk the claimed record.  Would-be debunkers seem to be piling up large heaps of little uncertainties in the hope that a large enough pile will win their case.  So we end up with claims that watches did not have second hands in the 1905 era, or an inch was not as long as today's inch.   

For the record gentlemen, having lived for many years in New Jersey, I can attest that the particular stretch of Jersey Central mainline in question has had a history of  very VERY fast trains.

To suggest out of hand that it is not possible is slightly more than disingenuous.

A little research on the Jersey Central on your part should be enlightening to you.

Bucyrus

 

 

There is no middle ground when it comes to debunking.  Either you debunk the speed claim or you don’t. 

There really isn't an "is" or "is not" with this stuff.  It's just about trying to see how bright or fuzzy the lines are you can draw.  

Also, the burden of proof is generally on the "bunk"-er, not the debunker.  

"My Toyota Camry went 273 mph on my way to work today".  Can anyone prove that it didn't?

daveklepper

I think we can all agree that the article was overly dogmatic in its criticism, just as the original claims were dogmatic in their claims.  

If Hanke’s criticism was overly dogmatic, and thus perhaps inaccurate, why should we assume that the speed claim is exaggerated, false, or overly dogmatic? 

If Hanke is wrong, I see no reason to assume that the speed claim is wrong. 

There is no middle ground when it comes to debunking.  Either you debunk the speed claim or you don’t. 

I think we can all agree that the article was overly dogmatic in its criticism, just as the original claims were dogmatic in their claims.   The exact truth will be never ascertained, because it would involve duplicating the experiment, and even if the track, locomotive, cars, etc. received exact duplication, there would remain the weather and the wind.

Semper Vaporo

 

But I would question if his value for Horsepower is the same as the 1903 value.  Horsepower has been re-defined at least once since then... 

Wut?  550 ft-lbs/sec.  Now and forever.

The AUTOMOTIVE industry changed how the RATE HP on automotive engines - particularly which auxiliary loads to count in or out  (water pump, oil pump, fuel pump, etc).  This had nothing to do with how and where you measure HP on a steam locomotive.  The two most common places to measure it are at the cylinder using an indicator (traces pressure vs. position - the area is the energy per stroke - times stroke rate give you HP).  The other is at the drawbar - force X speed  = power.  There was quite a bit of sophistication to these measurements - even way back when.

Best post you ever made Henry. The sad , sad, shame is it is so true.

"Oh, I beg to differ with you on this point.  Not only are we more gullable than ever, but we are less intellegent or knowledgable  able about things around us in general and more focused on the few things that interest us most.   Our entertainment and sports industries capture our attention and draw us in so  that more of us vote for our American Idol than our President with more intimate and accurate knowledge of the Idol contestants than of anyone running for any elected office.  We are tied to the likes of Facebook and Twitter but know litte but what is discussed there and not much of that which is there, either.  Even in these threads just in the Trains Magazine section we are all so narrowily focused  that some don't know modeling exists in another section and history in yet another section.  How many from the General Discussion pages actually read the Amtrak, Locomotive, or Transit sections?  Elsewhere in society we have so many  veying for our minds and our pocketbooks so successfully that they are rich and we have turned our money and lives over to them.  What we do have is a newsmedia which is nonshalant to so many things that happen daily and to history that something railroad would be considered so archaic so as not to be considered because it would not be underestood.  Yet, it would be just as easy to have a Death Valley Scotty jump up and play games with us and ride across the country as we watch in amazement,  Only today we would wonder why he is doing it.  But he would have our atttention and our money.  Worse yet, our vote.  (Did I say that aloud?)  No, we are very gullible today, and with the internet and hundreds of communications channels all aimed at us, we are suseptable.   No matter how many channels you are able to receive you will only pay attention to an average of four in any given week and maybe no more than 10 in any month.  Out of the thousands, you have been taken in by just a few and may never be part of a majority of any kind except the gullible."

Bucyrus

So what are you saying about the laws of physics relative to the 106 mph speed claim?  Did you read the post made today above mine? That is today's news. 

I was responding specifically to Balt's question about the bumblebee.  But I can extrapolate some question of the aforementioned mathmatical proofs.

I do not question the authority of the author (H2fex9x2) if I assume his claim of his occupation and I do not, at present, question such.  As such, I do not question his formulae or the mathematical calculations, nor his conclusions based on the formulae and calculations.

But I would question if his value for Horsepower is the same as the 1903 value.  Horsepower has been re-defined at least once since then... and to begin with the fellow that invented the term fudged his calculations so that his machinery appeared to be higher powered than they really were... i.e.: a real (average?) horse can achieve more than one horsepower (on average).  If the horsepower of 1903 is not the same as the 2012 horsepower then the calculations may need a correction factor (which may very well make the numbers worse for the purpose the claimed speed record!).

In addition, I ask whose "Mile" was used for the measurement of the speed?  I.e.: how long is a mile?  Silly question!  It is 5280 feet!  Okay, how long is a foot?  Silly question, it is 12 inches.  Okay, how long was the 1904 (or possibly earlier, like when the track was built) inch?  Hmmm... today an inch is EXACTLY 2.54 centimeters... and a centimeter is one 100th of a meter and a meter a certain fraction of the distance between the earth's equator and the northpole.... which was not actually measured, but was calculated based on a few miles of hand measurement using a chain... oh wait, that was not good enough so the French manufactured a length of a platinum-irridium bar that they keep in a specially controlled environment.  Well no, today it is a fixed number of cycles of a certain wavelength of a particular color of light.

But at one time, prior to all the redefining of the meter, the inch was NOT exactly 2.54 cm!  It was DECREED to be such by a scientific body to be, so that conversion from one measurement method to the other was made easier.  But for that decree to be true, either the Meter or the inch had to change from what it was.  I don't remember what the error was, but I am fairly certain it was the inch that had to adjust.

I bet there are a dozen little "errors" like this that affect the final numbers of the calculations.  Who did the measureing of the boiler horsepower in 1903?  What instrumentation was used?  How accurate was that instrumentation?  What would the equivalent measurements be using today instrumentation and how accurate would it be?  And I wonder which method of measuring a mile was used when laying out the track mile markers.

It has been my experience that errors like this do not tend to cancel each other out, they tend to compound like my credit card bill!

I trust the clam of the speed record as much as I trust the calculations done here in the previous post.  I respect both the people that made the claim and I respect the calculations as showing that it was not likely to have been true using today's more exacting standards.  Maybe they had a 30 MPH tailwind, maybe the cars weighed a bit less, maybe the coal was a better grade, maybe the wheels on the engine were a slightly larger or smaller diameter (fresh tires?, worn tires?), maybe the grade was steeper (how often is the grade measured along the track?), maybe the axles had a slightly better grease on the journals, maybe...  maybe there were "very favorable circumstances not known".

So what are you saying about the laws of physics relative to the 106 mph speed claim?  Did you read the post made today above mine? That is today's news. 

BaltACD

Doesn't the Bumble Bee break the laws of physics every time it takes flight?

That was true at one time, but that is only because the "Laws of physics' were actualy "aerodynamic THEORY" and the theory was WRONG.

Same is true for the military plane known as the Flying Boxcar... it also failed the then known aerodynamic theory (Inever understood how it got designed and built if it failed to meet the presently known theory), until the theory was corrected. (Prior to that, it was said that the only reason it got airborne is because the crew spent the whole time praying that it would.)

There are actually very few "LAWS" in physics... most are actually generally accepted theories that seem to hold true most of the time...

At one time the earth was considered the center of the universe and mankind was able to utilize that "LAW" to advantage... but when that law was "repealed" because of more knowledge by those bold enough to challenge the law, even greater advances in the utilization of the way things "really are' were made.

Same is true for the flow of electricity... when it was theorized to be a flow of some substance it was decided that it was a flow from a place with an excess of it, to a place with a relative scarcity of it.  One end of the source was labeled with a "+: symbol and the other with a "-" symbol, to represent the abundance and scarcity, respectively.  Lots of useful things were created while that "LAW" was in force (the light bulb being one of them).  Then it was discovered that it is the "flow" was of electrons and that the real flow was the other way and so they must be negatively charged.  The "LAW" was changed and with the additional knowledge even more useful items have been invented.

It will be interesting to see what other "LAWS" are, in the future, found to be in error and what the outcome will be when the new "LAW" is enacted..

Doesn't the Bumble Bee break the laws of physics every time it takes flight?

Thank you very much for your amazingly deep and thoughtful analysis.  I cannot begin to verify or question your calculations, but the outcome certainly fits my expectation, even if it does not quite confirm the claimed speed of the record.  I certainly agree with your criticism of the assertions in the article that the speed record would have defied the laws of physics.

My opinion is that the railfan steam interest is almost exclusively focused on the latest and greatest steam locomotive achievements of the super power era, and therefore they feel that any claims of record greatness have to belong to that modern era.  So they readily accept speed claims from the super power era and need to debunk claims from circa 1900.  That is exactly the way Hanke’s debunking comes off to me.  It is a bias against antiquity, and it often assumes that people from 100 years ago were not as smart or talented as they are today.    

Longitudinal dynamics of an early 20th century train: formulae applicable only on a straight track run:

Davis formulae/ E. Schmidt (for cars and steam locomotive, machine friction included)

CR=1.3xCW+29xNCA+0.030xCWxS+0.00034x120xNCxS²

LR=1.3x(TW+LW)+29xNLA+(0.045xTW+0.030xLW)xS+(0.00050x86+0.0024x120)xS²+20xWD

Gradient Resistance

GR=20xGx(CW+TW+LW)

Inertial Resistance (rotacional inertia included)

IR=[91.1x(CW+TW+LW)+36.4xNSA+182xNDA]xA =ICxA

Locomotive Tractive Force for a given cylinder HP

(Machine friction is considered in locomotive resistance)

TF=375xIHP/S

Newton’s Second Law and train acceleration capacity

Making  TR=CR+LR, then  TF=TR+GR+IR  and finally

A=(TF-TR-GR)/IC

Notation used

CR=Cars Resistance to motion (uniform speed and level tangent track) [lbf]

LR=Locomotive (and tender) Resistance to motion (uniform speed and level tangent track) [lbf]

TR=Train Resistance to motion (total resistance, since LR already includes machine friction)

CW=Cars Weight [tons] (=short tons)

NCA= Number of Car Axels

NLA= Number of Locomotive (and tender) Axels

NSA= Number of Supporting Axels (cars, tender and locomotive)

NDA= Number of Driving Axels

NC=Number of Cars

LW=Locomotive Weight [tons]

TW=Tender Weight [tons]

WD=Weight on Drivers [tons]

G=Gradient in % (+ upgrade; - downgrade)

IR=Inertial Resistance (axles rotational resistance included)

IC=Inertial Constant (IC=IR/A) [dimensional constant: lbf per mph/sec acceleration]

TF=Tractive Force (based on MEP: Mean Effective Pressure)

IHP=Indicated Horsepower (or cylinder HP) [hp]

S=Speed [mph]

A=Acceleration [mph/sec]

Data known:

CW=170 tons; NCA=16; NC=3;

LW=97 tons; TW=72 tons (assumed near Galesburg); WD=51 tons; NLA=9;

NSA=23; NDA=2;

IHP=1500 hp

This estimate, acceptable for speeds above 70 mph, is based on the thermodynamic performance displayed by AT&SF Vauclain compound Atlantic No. 535, tested at St. Louis Exhibition Test Plant in 1904 (the MAX HP registered during those tests was 1703 IHP, on Oct. 22, 1904, 1622 IHP having been maintained for 2 hours at maximum boiler output in a 113 miles run). The 1500 IHP value is thought to be conservative, but this assumption is not discussed here (thermodynamically too complex to do so here).

With the known data, the described formulae can be simplified for the Scott Special in the form:

TR = 2186 + 11.25xS + 0.4534xS²  [lbf]

GR = 6780xG  [lbf]

IR = 32084xA  [lbf]

TF=562500/S  [lbf]

And the acceleration capacity would be:

A = [562500/S - (6780xG + 2186 + 11.25xS + 0.4534xS²)]/32084  [mph/s]

Considering the wind speed, WS, if aligned with the train (WS>0 => favorable wind), one has:

TR = 2186 + 11.25xS + 0.4534x(S-WS)|S-WS|  [lbf]           =>

A = [562500/S - (6780xG + 2186 + 11.25xS + 0.4534x(S-WS)|S-WS|)]/32084  [mph/s]

Note that the expression {(S-WS)|S-WS|} is equal to the square of the air-to-train relative velocity (or proportional to the drag force); the use of the absolute value |S-WS| is needed only for train speeds inferior to wind speed, since the drag force direction will change in this case.

Examples:

1) Scott Special acceleration on level track, G=0, at the speeds:

S₁=70 mph              => A₁=0.0885 mph/s

S₂=80 mph              => A₂=0.0325 mph/s

S₃=86.2 mph           => A₃=0 mph/s                       => balance speed on level track in the absence of wind

Noting that the mean longitudinal acceleration is defined as: A=DV/Dt, then:

Dt_1->2=DV_1->2/A₁₂,

A₁₂ is the mean acceleration in the time interval Dt_1->2=t₂-t₁, for the velocity variation of DV_1->2=V₂-V₁. Assuming A₁₂ = (A₁ + A₂)/2 as a representative value then,

Dt_1->2 = 2xDV_1->2/(A₁ + A₂) = 2x(80 mph - 70 mph)/(0.0885 mph/s + 0.0325 mph/s) = 165 s

Dt_2->3 = 2xDV_2->3/(A₂ + A₃) = 2x(86.2 mph - 80 mph)/(0.0325 mph/s + 0) = 382 s

So the total time scale to approach balance speed is 547 sec, or 9 minutes approximately. Yet the actual time need to reach a given speed would have required integration: analytical (somewhat complex); or numerical, similar as done above but using smaller speed intervals.

Dt = ò 1/A(V) dV

2) Scott Special acceleration on a downgrade of 0.2%, G=-0.2, with the help of a tail wind of 20 mph, at the speeds:

S₁=70 mph              => A₁=0.1647 mph/s

S₂=80 mph              => A₂=0.1144 mph/s              => Dt_1->2=72 s         => t₂=72 s

S₃=90 mph              => A₃=0.0681 mph/s              => Dt_2->3=110 s       => t₃=182 s

S₄=100 mph            => A₄=0.0239 mph/s              => Dt_3->4=217 s       => t₃=399 s             (plausible)

S₅=105.5 mph         => A₅=0 mph/s                       => Dt_4->5=460 s       => t₃=859 s             (not plausible)

So with a 20 mph tail wind, blowing from West to East (not uncommon in the Illinois State in July), and running on a slight downgrade of 0.2%, the Scott Special could have reached the ‘century mark’ in 6 min 40 sec and in less than 10 miles [sum of the average speed (in mph) x respective time interval (in hours)], for an initial train velocity of 70 mph (cruising speed).

Yet a speed of 106 mph is not plausible, for the conditions assumed, due to the extension of the run needed to overcome train inertia. Also the water level in the boiler would be dangerously low, since at this speed the steam flow rate would surpass the maximum sustained capacity of the boiler (of 34,100 lb/h revealed at the St. Louis Test Plant in 1904).

Likewise, the maximum plausible speeds on a level tangent track, considering only the wind influence, would oscillate between 77 and 96 mph, for winds ranging from 20 mph against train to a 20 mph tail wind, the latter being more probable studying the wind charts of the Illinois State in July.

Yet a train resistance formula is not a physical law in the strict sense, but simply an empirical correlation affected by high uncertainty levels. For instance, the standard deviation of the measured machine friction for the 4 compound Atlantics tested at St. Louis test Plant was on average >40% of the mean machine friction, or 8 lbf per ton on drivers. So considering this value as a measure of the random uncertainty associated with locomotive resistance, for a 20 mph tail wind one could have as equally probable maximum train speeds of 93.1 and 98.5 mph on level track. Actually if one had performed a thorough uncertainty analysis of the entire calculus procedure presented above (one that would have demanded a lot of educated guess work), one would end up with a 95% confidence interval for maximum train speeds, in favorable atmospheric conditions, surely wider than 90 to 105 mph! This might come as shock to someone not familiar with physics and experimental work, but this is how things really are: the engineering art is not an exact science such as Mathematics! Only a very trusting person can think otherwise.

So in this case we can invoke the physics to make a probabilistic statement, but never to make a dogmatic affirmation such as “a 100 mph run would violate the laws of physics”. With all due respect to those who believe in such approach, it’s simply nonsense. That run was not a controlled test run, and as such it was not properly documented. In probabilistic terms that claim of high speed is exaggerated, undoubtedly, but speeds close to 100 mph are plausible even on level track, but only in favorable circumstances. But not even the actual gradient profile (detailed to the mile) is known, and there are sources that state that between Shopton and Chillicothe the track had an undulating character with a maximum gradient of 0.6%! [www.catskillarchive.com/rrextra/BLATSF] With such data (or in its absence) it is utterly impossible to use any serious scientific approach, and that’s final!

This is a case of trust: or we trust the source or we don’t, so this is also a question of respect. As such, I would have preferred to classify that a 106 mph speed simply as improbable (but not impossible) and would avoid statements such as ‘the cars would jump of the track’ or the that ‘the times were taken with 24 sec error for a 95 sec interval’ (why not round to the minute, and the speed could have been worthy of an TGV test run?), because in doing so I would be treating the entire railroad community of those days as inept people ignorant of the seventeen/eighteen century Newtonian’s Laws. In fact any rational argumentation is useless with those who believe that it would not demand to know such laws (and many others) to build a machine capable of making 1700 IHP or a boiler capable of almost 12 MW of useful thermal power, using such a crude fuel as coal burned in a 50 sq.ft grate.

Not even the great French Locomotive Engineer, Andre Chapelon, dared to discredit the 127 mph run claimed by the PRR on June 12, 1905, with the Pennsylvania Special, and in such bold terms as to invoke the laws of physic; although a man of science, and speaking precisely of high speed runs with steam locomotives, he nonetheless restrained is remarks simply by saying that such a performance would have demanded very favorable circumstances not known. He was only the man that had re-build several early 20th century steam locomotives to the point of making a 3 cylinder compound 4-8-4 capable of 5500 IHP (metric hp) with a 21 ton axle load limit (metric tons), actually measured during controlled road tests. How could he do it if A. C. Kalmbach, the founder and editor of TRAINS magazine, accepted this high speed claim as an authenticated one?

Who am I?

I’m a Professor in a European’s Polytechnic Institute: I teach Applied Thermodynamics, Heat Transfer and Applied Mechanics.

Why do I bother?

Because I think we must respect past achievements and those involve, unless ample evidence is presented to us suggesting the contrary. And in this case a more cautious approach should have been used by TRAINS while speaking of such an undocumented subject (at least not a single quantified fact was presented). Also we should avoid deterministic statements like “the violation of the laws of physics”, because such an exaggerated argumentation (in this case) can be wrongly interpreted and extended to the finest accomplishments of an entire era. And that would be quite unfair to the memory of those that have worked to the finest standards of the day with the tools at their disposal (condescending judgments are nothing more than a display of our one ignorance...).

Obviously I am a rail fan since long and a descendent of railway men.

To anyone interested, I can specify the documental sources supporting the statements made and the formulae and the data used here.

BaltACD

The only similarity between the railroad worlds of 1905 and 2012 is that the gauge is 4 feet 8 1/2 inches.  Regulatory, statutory, promotional and business models would not be able to talk each other over the time differences.

tree68:

I would suspect that the FRA would have more to do with quashing such an effort than anyone else, however indirectly.  Class 4 track is class 4 track and is limited to 80 mph for passenger.

The only way to make a "record" run is to stay at speed as much as possible.

I don't know if there are penalties for openly running faster than the class of track allows.

There were no such track classes at the time of Scotty's run, and I suspect that the train frequently ran as fast as the track would carry it safely.

 

Guys, remember money talks and if someone wants to do something badly enough and spreads the green in the right directions with the right concocted message, who knows what will happen. 

The only similarity between the railroad worlds of 1905 and 2012 is that the gauge is 4 feet 8 1/2 inches.  Regulatory, statutory, promotional and business models would not be able to talk each other over the time differences.

tree68

I would suspect that the FRA would have more to do with quashing such an effort than anyone else, however indirectly.  Class 4 track is class 4 track and is limited to 80 mph for passenger.

The only way to make a "record" run is to stay at speed as much as possible.

I don't know if there are penalties for openly running faster than the class of track allows.

There were no such track classes at the time of Scotty's run, and I suspect that the train frequently ran as fast as the track would carry it safely.

I would suspect that the FRA would have more to do with quashing such an effort than anyone else, however indirectly.  Class 4 track is class 4 track and is limited to 80 mph for passenger.

The only way to make a "record" run is to stay at speed as much as possible.

I don't know if there are penalties for openly running faster than the class of track allows.

There were no such track classes at the time of Scotty's run, and I suspect that the train frequently ran as fast as the track would carry it safely.

jpwoodruff

I've been enjoying the articles about Scott's train record.  Can I ask
a related topic?

How would the railroad prepare for such an event?

The lore says "A few minutes before noon on Saturday the 8th of July,
a man walked in ..."  Scott challenged Mr Byrne to set the record and
Santa Fe accepted the challenge. 

The train departed at 1 PM the next day. 

It seems to me that there must have been planning behind the scene
before the theatrical conversation between Scott and Byrne.  So I'm
wondering - how much planning and communication was done by the
railroad managers to be so confident of success? 

What operations have to happen ahead of the train's departure? 

What does it take to get all the men and equipment in place, crews
rested and ready?

How much time does it take to get *all* those things done?  I infer
that Mr Byrne was confident that it could be done.  My hypothesis is
the plans had been afoot for some days before the meeting.

ANOTHER IMPOSSIBLE SPEED RECORD:

Here is a description of a fast run on the Plant System in 1901 during a government sponsored competition between the performance of the Plant System and Seaboard Air Line railroads for the awarding of a U.S. Postal Service mail contract. 

U.S Postal Service authorities confirmed that the Plant System test train reached 108 mph with the test train being pulled by locomotive #111.

http://news.google.com/newspapers?nid=950&dat=19730305&id=2r5aAAAAIBAJ&sjid=w1cDAAAAIBAJ&pg=7218,1051223

There was more than one competing run made for this test.  In the one I mentioned above, a maximum speed of 108 mph was achieved.  The highest speed of all was achieved in this particular run, which used locomotive #111, and achieved 120 mph:

http://www.rootsweb.ancestry.com/~gaware/html/great_locomotive_race_1901.html

I recall the story of this competition was covered in a magazine, which I recall as being Trains.  However a search only turns up coverage of Plant System locomotive #111 with article title reference to it being a “fast stepping ten-wheeler.”  This is in Trains November 1943, and that is not the article I recall seeing.  I have never seen this article and don’t have that issue of the magazine.  Here is the reference:

http://trc.trains.com/Train%20Magazine%20Index.aspx?articleId=64651&view=ViewIssue&issueId=5634

Locomotive #111 was renumbered to #210.  I don’t find a picture of #111 or #210, but here is #110, which may be a sister to #111.  If so, you can see what type of engine we are talking about for pulling a train at 120 mph:

http://upload.wikimedia.org/wikipedia/commons/2/20/SF%26W_No._110.jpg

CSSHEGEWISCH

The press and the public are also a lot more skeptical today than they were in the early 1900's, so a character like Death Valley Scotty wouldn't exist today and the whole special would be viewed as little more than a pricey publicity stunt.

Oh, I beg to differ with you on this point.  Not only are we more gullable than ever, but we are less intellegent or knowledgable  able about things around us in general and more focused on the few things that interest us most.   Our entertainment and sports industries capture our attention and draw us in so  that more of us vote for our American Idol than our President with more intimate and accurate knowledge of the Idol contestants than of anyone running for any elected office.  We are tied to the likes of Facebook and Twitter but know litte but what is discussed there and not much of that which is there, either.  Even in these threads just in the Trains Magazine section we are all so narrowily focused  that some don't know modeling exists in another section and history in yet another section.  How many from the General Discussion pages actually read the Amtrak, Locomotive, or Transit sections?  Elsewhere in society we have so many  veying for our minds and our pocketbooks so successfully that they are rich and we have turned our money and lives over to them.  What we do have is a newsmedia which is nonshalant to so many things that happen daily and to history that something railroad would be considered so archaic so as not to be considered because it would not be underestood.  Yet, it would be just as easy to have a Death Valley Scotty jump up and play games with us and ride across the country as we watch in amazement,  Only today we would wonder why he is doing it.  But he would have our atttention and our money.  Worse yet, our vote.  (Did I say that aloud?)  No, we are very gullible today, and with the internet and hundreds of communications channels all aimed at us, we are suseptable.   No matter how many channels you are able to receive you will only pay attention to an average of four in any given week and maybe no more than 10 in any month.  Out of the thousands, you have been taken in by just a few and may never be part of a majority of any kind except the gullible.

It would be easier to figure out when the train left Pittsburgh, but I'd still like to think that if someone of the kind of wealth Scotty had were to walk into the office of the president of a RR, he could get it done today.  The Railroads of yesterday were all about schedules, but today they are more used to moving product when it needs to be moved and I have seen them "MOVE" when the conditions warrant it.  I can't help but believe they could get it done today.

The press and the public are also a lot more skeptical today than they were in the early 1900's, so a character like Death Valley Scotty wouldn't exist today and the whole special would be viewed as little more than a pricey publicity stunt.

If it were a panel of 100 working on the project, two of them would trump them all: the lawyer and the insurance man.

henry6

Today such preperatons would probably take months; back then, the bold decisions were made routinly and they were always looking for ways to make a splash, get attention, and prove themselves (proving what was maybe not always clear).  It wouldn't be considered today.  Not just because it couldn't be done today, but it would take a wild imagination with a need so dire it is incomprehensable!

 

Yes, I don’t think this speed run even could be done today.  This was a product of a bold and wild time when adventure was king.  If it were today, there would probably be a bunch of naysayers who would prove the speed could not be achieved, so there was no need to try.  They would say that nobody could shovel enough coal.  They would probably tell the AT&SF that the speed stunt would reek of corporate spin. 

jpwoodruff

I've been enjoying the articles about Scott's train record.  Can I ask
a related topic?

How would the railroad prepare for such an event?

The lore says "A few minutes before noon on Saturday the 8th of July,
a man walked in ..."  Scott challenged Mr Byrne to set the record and
Santa Fe accepted the challenge. 

The train departed at 1 PM the next day. 

It seems to me that there must have been planning behind the scene
before the theatrical conversation between Scott and Byrne.  So I'm
wondering - how much planning and communication was done by the
railroad managers to be so confident of success? 

What operations have to happen ahead of the train's departure? 

What does it take to get all the men and equipment in place, crews
rested and ready?

How much time does it take to get *all* those things done?  I infer
that Mr Byrne was confident that it could be done.  My hypothesis is
the plans had been afoot for some days before the meeting.

Great questions and even greater observations.  It is easy to say it was an age of whatever...lots of manpower, lots of time, lots of money (for some), and lots of imagination for all.  So, could this have been pulled off effectively and efficiently as stated?  By today's standards only the "some with money" could hold true; the manpower and imagination are probably in short supply and the red tape and rules and regulations are many.  Many.

Getting the railroad ready wasn't as hard as might seem.  There were plenty of people to be assigned to do all the work needed: spiking and guarding all swtiches, bridges and tunnels; preparing and spotting all locomoitves and coal and water supplies where and as needed; assembling the few cars needed for the trip; having crews ready at a whistle's notice (there was no hours of service rules, so if one were not already perched in an engine cab and his eyes were open, he was deemed ready for a new assignement).  Probably getting the pre publicity out and reacted to was the hardest part as there were so many newspapers to notify individually instead of a mass email or fax campaign like is done in minutes today.  Today, notifying the media would be easier but getting response would be more difficult.  More difficult, too, would be getting the idea passed from brass to brass, one level at a time, then getting government rulers to sign off on the idea.  The imagining would have to be excercised in figureing out why this was a good idea and how to get it through the red tape quickly.  Today such preperatons would probably take months; back then, the bold decisions were made routinly and they were always looking for ways to make a splash, get attention, and prove themselves (proving what was maybe not always clear).  It wouldn't be considered today.  Not just because it couldn't be done today, but it would take a wild imagination with a need so dire it is incomprehensable!

I've been enjoying the articles about Scott's train record.  Can I ask
a related topic?

How would the railroad prepare for such an event?

The lore says "A few minutes before noon on Saturday the 8th of July,
a man walked in ..."  Scott challenged Mr Byrne to set the record and
Santa Fe accepted the challenge. 

The train departed at 1 PM the next day. 

It seems to me that there must have been planning behind the scene
before the theatrical conversation between Scott and Byrne.  So I'm
wondering - how much planning and communication was done by the
railroad managers to be so confident of success? 

What operations have to happen ahead of the train's departure? 

What does it take to get all the men and equipment in place, crews
rested and ready?

How much time does it take to get *all* those things done?  I infer
that Mr Byrne was confident that it could be done.  My hypothesis is
the plans had been afoot for some days before the meeting.