Friday, September 29, 2006

Why only snippets of 19th century books on Google?

Google's blog has an explanation of their approach to copyright protection. What is peculiar is that large numbers of 19th century books indexed by Google's fabulous library project are displayed only as snippets, the way that they display copyrighted works. This is seriously hampering our project. Each time that we have contacted Google to point out that a 19th century book is erroneously displayed only as snippets, contrary to their policy, they refuse to correct the problem, and give the following response:
Thanks for taking the time to email us. Google respects the rights of copyright holders and the tremendous creative effort of authors. In order to keep within the bounds of copyright law, we abide by strict guidelines when determining whether a book should be held to be under copyright. We may display only snippets for books that are in the public domain if we can't verify their copyright status. Google Book Search is still a young program, and we're always improving it for our users.
We're puzzled by the response and have repeatedly asked for clarification, but Google declines to explain why.

This seems like a simple technical issue that could be quickly and easily fixed.

Thursday, September 28, 2006

Trip from San Francisco to Massachusetts in 1882

From: " Susan Spangler" suprsooz@verizon.net

I'm doing a genealogy search for Grandparents that left San Francisco in 1882 heading to Massachusetts. Can you tell me what their likely route would have been and if they would have taken the Transcontinental or the Southern Pacific? Thank you in advance for any help you can give me.

I'm also curious to know if there are any known archives of passenger lists for train travel in the 1880's  

Susan LeGassick Spangler

The good old days in RRing

From: FCGAMST@aol.com

The attached, my latest popular RRing article. What I was doing back in 1955-56. When a swing brakemen had a bad cold, I would decorate the tops for him (mandatory) down the Cajon to San Berdoo.

—FRED


Working (and Learning) on the Los Angeles & Salt Lake

by Frederick C. Gamst (fcgamst@aol.com)

From September 1954 through early May 1955, I was a warehouseman in Pasadena earning $1.20 per hour or $39.00 weekly take home pay. After helping manually unload two carloads of cases of candy (110 tons, my aching back), one of John Santa Fe's brakeman picking up our empty cars told me, "You're working on the wrong side of the boxcar." He explained how to improve my situation. In May, I embarked on my first student trip out of East Yard on the Los Angeles & Salt Lake (LA&SL). The "rails" I have known across the years on the LA&SL not only "cut me in" on the tasks of engine and train service but also provided me with a storehouse of the work history and lore of our "Salt Lake Line." Some of them had entered "the service" as early as 1904. My gosh! Fifty-one years earlier. They were o-l-d!

This article focuses on Los Angeles & Salt Lake (LA&SL) railroading rather than its track, buildings, and equipment (overviewed in my: "The Los Angeles Terminal Railroad," Observation Platform June 1995:3-5). Accordingly, the concentration is on work tasks and the learning of them. Some of my steam reminiscences could well stem from my firing "Fresno" or "Valley," Mallets (2-6-0s) and the like on the San Joaquin Division of the Espee or elsewhere. Much learning on a railroad is informal, taught by peers on the job and in "old heading it," on the job and when not working. In these ways, the skeleton framework of the operating rules is fleshed out with exemplification and nuance. Part of the learning process consists of acquiring the railroaders' "lingo," a precise shorthand for the intricate tasks of work. Railroaders' lingo/jargon/cant/slang is in quotation marks.

In the Beginning, Rattlesnakes. By 1890, two short railroads ran from the east bank of the Los Angeles River near downtown northward to Altadena via Pasadena and to Verdugo Park via Glendale, thereby creating a V shaped route. That year, the two lines became part of a new Los Angeles Terminal Railroad (LAT). In 1891, LAT built southward to Long Beach and, then, westward to adjacent Rattlesnake Island, a sandbar protecting the swampy mouth of the Los Angeles River. LAT thus became a Y shaped route. At its base, the LAT had its foot planted in the nascent, deep-water port in San Pedro Bay, the construction of which the federal government decided to fund in 1890. The rattlesnake land was not so bad after all. The LATers had a transportation future.

Some of the "oldest heads" I knew had worked with LAT men. One of the nuggets shown to me at East San Pedro, the main-channel-end of Rattlesnake, renamed Terminal, Island were some of the original LAT rails of the main track, still in place in the 1990s, after a century of use. At East San Pedro, about 50 feet south of the gate for the Mobile Oil facility a rail read on its web: "Cammell Shefffield Toughened Steel 61 _ lbs P I C 1887 P."

"The Sea Shore Line," as LAT advertised, touted its island sandbar as a beach resort area but the snakes washing down the river during winter rains had to be cleared before Angelenos would pay the chair-car fare to brave the always-cold Pacific waters. One sandbar station labeled Brighton Beach was the location of the LAT's seaside attractions. Coney Island's Brighton Beach, watch out! At the Rattlesnake's far west end, East San Pedro, the LAT built piers and wharfs for shipping goods to and from Southern California by steamer, thereby competed with the octopus, the Espee in (the real) San Pedro. Little did LATers know, the vast Wilmington oil pool lay under the Rattlesnake's area. Through the 1980s, the many Union Pacific oil wells on the island bore white signs reading "LA&SL Railroad."

In 1901, former U.S. Senator W. A. Clark, "the Copper King," began construction of the San Pedro, Los Angeles & Salt Lake and absorbed the LAT into it. By later agreement, the Union Pacific owned 50 percent of the railroad and the Clark interests the other 50 percent. Completion of "the Arrow Head Route," to initially high engineering standards, was on January 30, 1905, largely by funding from the banking interests of the UP's E. H. Harriman. "Clark might have been the Copper King but Harriman trumped him as the Railroad King," a 1905 engineer told me. The new SP,LA&SL was firmly in the traffic network of the UP. "The Pedro," as it was often called, deleted San Pedro from its name in 1916 because Los Angeles had annexed the harbor town in 1909. In 1988, the LA&SL lost its corporate identity when it became fully merged into the UP.

What Were the Labor and Operating Jurisdictions on the Salt Lake Route? For railroad operations and labor relations, the LA&SL began with two divisions, each with its own employees, the Salt Lake and the Los Angeles. The Salt Lake spanned Salt Lake City to Caliente, Nevada (comprising lines constructed from the north before the Clark acquisition of 1901). The Los Angeles spanned Caliente to Los Angeles (comprising the LAT and lines constructed from the south after 1901). Northern LA&SL men had no jurisdiction, hence work, in the Salt Lake terminal because that belonged to the employees of the UP's earlier Oregon Short Line (OSL). For LA&SL road crews running in or out of Salt Lake City, OSL rules and timetable governed within the terminal limits. Similarly, my southern seniority rights ended at the west switch of the small terminal of Caliente because the northern lines and their employees had built through to that point before the 1905 completion. The two operating divisions eventually consolidated into one Los Angeles division and, then, split into Utah and California divisions.

Currently, on the UP, Salt Lake City to Yermo, California is in the Utah Service unit and Yermo to Los Angeles is in the Los Angeles Service Unit, each under a superintendent. The northern and southern seniority jurisdictions remained until the labor agreements imposed by the Surface Transportation Board consequent to the UP absorbing the SP on September 11, 1996. Today, the Brotherhood of Locomotive Engineers and Trainmen's Division 660 for the L A to Yermo district is named Tropico. This is because when engineers founded the division, their union meetings took place in Tropico, both a station on the original Glendale Line and a farming town formed in 1887 and annexed as city by Glendale in 1918.

What Was Working on the Railroad Like? In 1905, the U.S. fatality rate per 1,000 trainmen was 8.1 individuals and the injury rate was 121.5 individuals (or 13 percent of trainmen were casualties, per year). (Today, the casualty rate is a hairsbreadth of that amount.) As mournfully recited to me by an aged brakeman:

"Only a coupling pin broken in twain, . .
Youthful the form that goes back through the rain, . . .
"Only the bloody form there on the rail,/
Over whose horrors the strongest grow pale,"
(and found in the classic poem "Only a Brakeman," Locomotive Engineers Journal 19[1885]:726.)

When I hired out, we still had some 1904 and 1905 trainmen working on the property. The oldest "brakies" on the "seni" list said, necessarily, the cars with "the Westinghouse" (lingo for air brakes) were all on the head end of a freight train and those without air brakes were on the rear end. Some freight trains were mostly without operable air brakes. Brakemen and switchmen applied hand brakes on each car's "B end" by turning a usually horizontal, spoked, brake operating wheel attached to a vertical steel "staff" around which a chain to the brake rigging (specifically, to the brake rod) could be wrapped to tighten or unwrapped to loosen. Railroaders used a wooden brake club ("staff of ignorance") for leverage in strong hand braking.

For braking force, an engineer would whistle "down brakes" (o o o o o o o o) when he wanted to stop, say, to head in to a siding for a meet with an opposing train at the end of authority to occupy the main single track. The head, swing, and rear brakemen were already at their permanent posts "decorating the tops" (of the cars). They, then, ran along the car tops, leaping from car to car, and tightening the staff brakes, "clubbing," with their clubs. That is, they were applying ungeared brakes using a club for leverage in a brake's operating wheel. On the car-top's catwalk or on the small, car-end platform for operating the brake, a man could be knocked off by a spin of the brake club from a releasing hand brake. The spin could "club" him, breaking bones. Sometimes, the brake chain would "ball up" and, then, slip loose as the railroader applied his greatest exertion and cause him to loose balance and fall between the moving cars. During the 1920s, an improved, "one-hand," hand brake had multiplication of muscle power with 3:1 and 4:1 ratios on a pair of gears, "brake boosters." Such hand brakes have vertical operating wheels and, today, also operating levers and offer safer and greater exertion advantage. The brake club is now "outlawed."

Hand brake too tightly and the car wheels would "pick up" at low speed, slide flat, and "walk" (ker plunk, ker plunk). Hand brake too loosely and the point of the train would run past the heading-in switch of the siding. The train crew thereby violated track occupancy authority for a while, until brakes could be released manually and the train backed under flag protection. The conductor usually "flagged," from the rear platform of His caboose, individually assigned by the railroad. No drawbar flagman was He. While thus inadvertently "lapping authority" to occupy the main track, the head end had to be protected against the opposing train by the "tallow pot," (locomotive fireman) who made a spot fire in his firebox and, then, left the cab with a flagging kit. He did so because the "brakies" were busy--all the more so in pitch black darkness with precipitation. On the main track's six steep downgrades of the LA&SL, if the hand brakes were too tight, car wheels would overheat and thermally crack. A brakeman had to learn just the right amount of "clubbing" for a particular operational and topographical situation. The amount of thick blue-gray braking smoke and the heat smell were indicators of overheating. Trains hand or air braking on a steep grade were always wreathed in such smoke. Balancing a train on a descent of a mountain grade took a learned, coordinated team judgment by all crewmembers.

The Straight Scoop on the Straight Air. What about the engineer's use of air brakes? I learned about the ancient A-1s from "hoghead" Bill All. Masterful Bill was an SP,LA&SL 1906 man and known as an "air man" (air-brake artist). Using the short, vertical, straight-air lever of the Westinghouse A-1 air brake system, I learned the following regarding the independent engine brakes. You push the lever forward on the quadrant into application position and apply the straight air; pull backward into release and release the air. On center is the lap (of desired amount of an application) position (see diagram). As Bill questioned, "How does all that straight air go through all these curved pipes?" I operated A-1 straight air when hostling two 1873 engines used by Hollywood in Westerns (the ex-CP, V&T 18 and 19; both 4-4-0s, or American Standard types).

Ordinarily, an engine has two manually operated, engineer's brake valves in his work area, independent for engine (and any tender) and automatic for engine and all attached suitably equipped cars. In the A-1 system, a straight-air brake valve is the partial predecessor of the later independent brake valve.

What's so special about Mr. George Westinghouse's A-1 (Automatic-One), "combined automatic and straight-air brake equipment" for freight service? The "air man" taught me, not only could the car brakes be train lined for automatic use, i.e., reducing the brake pipe pressure to effect braking, but also, instead, compressed air could be forced back to apply the car brakes. In either mode, a car had a triple valve for brake application and release (see diagram for K-triple valve). Of course, if the train parted while in the straight air mode, you had no braking on the cars, whose air pressure rapidly bled off to the atmosphere. And about 10 cars or so was all you could get by with using straight air in the cars. Using straight air in the car brakes allowed the engineer to recharge his automatic brake system after a brake application, done in automatic running position.

Two three-way cocks in the engineer's work space allowed his use of either straight-air or automatic-feature braking of a train. An advantage of straight-air braking of a train was that the engineer could graduate the amount of braking force he released, say, going from 40 psi car brake cylinder pressure, to 28, to 17 psi, to 8 psi. With the automatic, reduction mode, the engineer could only entirely release his freight train brakes, say, going from 25 psi car brake cylinder pressure to 0 psi. At an initial terminal or after picking up or setting out cars, a train crew had to make both a straight-air and an automatic brake test. If straight-air pressure dropped greatly during an application of car brakes on a downgrade, the engineer had to cut over to automatic braking and immediately stop his train. He, then, whistled o o o o o o o o and the brakemen held the train with hand brakes before they inspected and repaired the straight-air system on. If the repair was not simple, say, a burst air hose, the brakemen applied all retaining valves on the cars, released the hand brakes, and the engineer descended the grade relying on the automatic system alone.

In straight-air braking, the automatic feature is a backup system. For trains larger than a dozen cars, crews relied on the automatic feature to apply car brakes, i.e., reducing pressure in a charged train line (a continuous brake pipe having hose connections between cars) running the length of the train. When the train--and thus two of its connecting hoses-- parted, the automatic feature included that the all-of-train brakes would automatically apply in an emergency application. This occurred as air escaped to the atmosphere and reduced train line pressure to 0 psi, thereby causing the braking. A braking control valve called a triple valve is on each car and engine. This triple valve has triple functions. From the "signal" of changing compressed air pressure in the train line, it governs the charging of an auxiliary compressed air reservoir on each car and the applying of compressed air to and releasing it from the car brake cylinder. In all, the automatic feature functions through the medium of the car control valve, with a reduction in train-line pressure from any cause: engineer's manipulation, other crewmember's manipulation as with opening an angle cock at either end of the train line, parted air hose, burst hose, and leakage. In brief, any source of decrease in train-line pressure results in a consequent (automatic) increase in brake cylinder pressure, and a "break in two" of a train results in an enforced stop.

During 1887, as the two predecessor lines of the LAT entered service, Westinghouse introduced the first "quick-action" automatic braking system, using an early triple valve. The improved A-1 system replaced it. A modern, more effective No. 6 system would replace the A-1. Eventually, the acme of triple valves, the K type, entered service. It began to be replaced by a more effective AB control valve in the 1930s. During World War II about half the freight cars had K-triple and half had AB-control valves and, today, the Ks are long gone.

No. 6 ET and ALL of That. Eventually, most engines had the "new" No. 6 ET (Engine & Tender) air brake system, introduced in 1906, the year after completion of the LA&SL. This braking system was designed for the new large heavy locomotives in high-speed passenger service and in heavy-haul freight service having long trains entirely with air brakes. With 6 ET, the era of hand braking trains came to an end. The 6 ET has, among others, holding and release positions on the automatic brake valve's quadrant (see diagram). Release position connected the train line directly to the main reservoir and its pressure of 120 to 130 psi, and holding held independent engine brakes applied when the automatic brakes on the cars were released and the train line recharged to a preset limit, say, 70, 90, or 110 psi. Independent engine brakes also held in the automatic's release position. A running position released and recharged train brakes and released the independent engine brakes. (I enjoyed using the 6 ET brake equipment on various steam engine types). With release position, you could send back "a big gob" of air to help release the brakes but, if you were not careful, could overcharge the train line and cause sticking car brakes.

Using automatic release was like using the technique of "bridge braking"; old heads taught you the use and abuse of the rules. Here we find a learned subrosa subset of rules topics, tasks, and operations outside the official rules, such as running over the road on the authority of smoke orders or head rights. As our collective alter ego, Bozo Texino, chalked and instructed on car sides, "You can get by with breaking the rules every time, until the time that you don't." Then, you and others could be killed.

What is "bridge braking"? Until the advent of diesel-electrics with their dynamic brakes (a form of regenerative electrical braking) on the LA&SL, most trains were "bridged" or "fanned" down its six mountain grades. "Bridging" meant, first, moving the handle of the automatic brake valve counterclockwise to a service position, thus, making a reduction of air in the train line and applying some amount of train braking force, and next, moving slightly clockwise toward the automatic running (normal recharging) position to let a little reservoir air into the train line to overcome any normal leakage in the line. You could continuously "bridge" by moving every so often between the running and the lap or holding positions. Using the "fanning" technique, after an automatic brake application, you put the same handle in running for half a second or so, next, back to lap or holding, and did that incessantly to maintain the train line pressure at a desired amount of leakage. Of course with "bridging" or "fanning" you never really knew what amount of braking force you had back along the trailing cars: perhaps, far less than you thought. ("San Berdoo" here we come flying down the Cajon.)

Using retainers, the "pops." On steam, and sometimes on diesel-electric, the brake cylinder pressure retaining valve on each car had to be used to retard a train's decent down a grade. Given a steep grade if the engineer simply releases the train brakes, it is "away we go." Insufficient time exists to pump the train line back up to its preset pressure. Having the brakemen apply the retainers on a specified number of cars, in the days of steam usually all cars, allows the engineer to slowly recharge the train line with air while descending without stopping. Then, when needed, the engineer could resume applications of his automatic brakes. To release brakes on cars having retainers set, the retainer handle on a car must be returned to its normal position or else the brakes must be bled off manually, while stopped, using the bleed rod on each car.

Water and Steam. So, all the engineer had to be concerned about regarding his engine were the intricacies of the independent engine and all-of-train automatic air brakes? No, among other things, there were water and steam for concern, like blowing up the locomotive from low water. Steam engines have steam injectors and steam-powered feed water pumps to put water in the boiler. Practice varies with the needs and time pressures of a particular run. I discuss oil burners such as used on the LA&SL (and on the Espee and Santa Fe in California) but water issues are the same on coal burners, I learned in Africa. I will cover only some of the pointers from fellow enginemen and from experience on the job.

First of all, know your true water level. Accordingly, blow out your and the engineer's water columns and their water-glass drains periodically, as per rule, and verify the water level with the orifices of the gage cocks. Those photos in the register room of blown-up engines were not posted there for sensationalism. ("There's a lesson here, fireboy. Learn and live.") Inspect the firebox for water leaks and plugged flues while you are at it. Too dark a brickwork in the firebox interior means you do not have enough heat to properly support combustion.

A boiler check stuck open or leaking badly will lose boiler water in back flow to the tender, something readily seen on the level in the water glasses. The boiler check must then be manually shut off and the injector attached to it can not be used again until shop repairs are made to the check. That is why the engine has two injectors. With backflow, the affected injector "breaks" and its tell tale drain pipe will emit steam and roar somewhat. Engineers warned me that with a really strong backflow you get a rumbling in the tender, as the boiler begins to empty therein via the feed water line. Are you paying attention? In addition, the 1904 to 1920 men told me, if the "tallowpot" allows the water in the tender to become sufficiently hot with backflow, the injectors and feed pump will not operate, until cooled. With backflow, falling water in the boiler, and a fire in the firebox, you can explode the boiler. Are you taking notes? So, in such a case, kill your oil fire! Perhaps all that happens is that you have softened the crown sheet over the firebox --waiting to blow with the next full head of steam and hot fire. Then, if time permits, "join the birds" and run like hell.

Second of all, water should be fed into the boiler as evenly and steadily as possible. Adding cold water from the tender knocks down your steam pressure, something you do not want on a grade. On a grade, you are often "trading water for steam." We are instructed to feed water into the boiler all the time the engine is working steam. Too high a water level and the throttle valve (in the steam dome atop the boiler) will work water into the cylinders, destroying lubrication, and possibly knocking out a cylinder head, rendering a "dead engine."

All "modern" steam engines I have seen have at least a pair of injectors. Thus, use the fireman's injector most of the time. If it goes bad order or you need more water for a short while also use the engineer's injector. A second injector used with another one will be putting too much cold water into the boiler at one time. So, use it sparingly, we are told. Otherwise, you will cool the crown sheet, damage flues, and loosen stay bolts, all causing water leaks into the firebox. Allowing too much cold draft into the firebox will have the same "showers" effect. You are still paying attention?

On oil burners, always advance your firing valve handle, which regulates steam-atomized oil flow to the firebox, as the engineer advances the throttle. This action prevents cold air pouring into the firebox, with the undesired strong cooling effect. Similarly advance the firing valve with pronounced slipping of the driving wheels. A clear stack (exhaust) shows that excessive air passes through the firebox. However, do not waste fuel "smoking" your engine with a dark black stack. That unnatural act is done only so photographers can take atypical pictures.

On big power having a steam-operated feed water pump in addition to an injector, pump a limited steady flow of water from tender to boiler. As we thundered up rises at 6 mph, and at other times, I would add water from my injector. Procedures exist for freeing a steam-bound water pump. But if you cannot free it or it leaks badly, you still have your injector.

Just how low can you keep the water in the sight glass? Well. . . let's not discus that matter. However, you always want to know that the two of you have a true reading in your water glasses. Sometimes the margin between "making the grade" with a heavy train and, at the very least, blowing one of the protective soft plugs in the crown sheet over the firebox (and emptying the boiler into the firebox) is quite narrow. The amount of fine tuning of this margin decreases with experiential learning. The soft plug is also known as a drop plug, is made of fusible metal, and, with a low water level, has a rising temperature, softening the plug. Its melting allows steam to blast downward, extinguishing the fire. Then you have a dead engine, no "alibi," and demerits (Superintendent George Brown's "Brownies" or "Brownie points"). We have not touched upon the systems of employee discipline for infracting the rules and making errors.

Freight Train, Freight Train Goes So Slow. Of course, in the days of steam, as per the rules, a freight train had to make wheel-cooling stops on a steep downgrade. Otherwise the car wheels, which are heat sinks for the brakes, could fracture while in motion, derailing the train. On the engine, excessive braking of the steel driving wheels could overheat and loosen their steel tires, heat-shrunk onto the wheels. The loosened tires could leave the wheels and "tangle" with the flashing rods, perhaps hammering a thus broken rod through the cab and a crewmemebr, but always disabling the engine—big time. So, "cool your wheels." Stopping to "take on water," with the fireman jerking down the spout of a water tank in a "jerk water," or "tank town" does not count for cooling wheels.

According to Timetable No. 28 of AT&SF's Los Angeles Division (1910: Rule 28, p. 2), on their joint track, AT&SF and "Salt Lake" freight trains had to make two 10-minute wheel-cooling and inspection stops on the descent of the Cajon Pass, at Cajon and Devore. Because of the nature of the equipment, on all districts, trains had to be stopped and inspected by trainmen every 30 miles. Top freight train speed was 24 or 30 mph, depending on the type of engine, except Pasadena to Los Angeles, which was 20 mph. (So, much for the romantics who wrote about the swift approach of an onrushing, wind-generating locomotive.) From Barstow up to San Bernardino yard (which had Rule D-151 double main track), the 80-mile joint track was single and dark, under Rule S-71. That short stretch of double track was the beginning of the double tracking of the entire 80 miles. The timetable's average speeds of regular freight trains, Barstow to "San Berdoo," were 11 to 13 mph and for the "varnish" (passenger trains), 20 to 30 mph. Talk about velocity.

On April 27, 1921 the UP acquired the 50 percent of the LA&SL owned by the Clark interests and began pouring many millions of dollars into the property. One engineer told me that before the UP took full control of the Salt Lake Line, "You could tell when you 'went on the ground' [derailed] because bumping over the ties made for a smoother ride [than previously]." By 1922, speeds for the "varnish" were as on similar railroads. LA&SL passenger trains with Mountains (4-8-2s) and Mikados (2-8-2s) could not exceed 45 mph and Consolidations (2-8-0s) 40 mph but Pacifics could do 50 mph. Freight trains and light engines could not exceed 30 mph. All freight trains had to stop for inspection at Ontario, Sands, Kelso, Desert, Leith, Rox, and either Dry lake or Carp. Plus westward (not westbound) trains had to stop 10 minutes for inspection and to cool their wheels at Chase, Jessup, and Kelso (LA&SL Timetable 62, November 1922, p. 7).

By 1935, the kerosene lanterns marked "LA&SL" on the clear glass globe and used for hand signaling were in a phase of replacement by battery-powered lanterns. "At any point," the maximum speed for passenger trains was 60 mph and for freight trains, 40 mph, except second class and inferior trains still had to move at restricted speed within yard limits, as in previous decades. However, engines other than Mountains and Pacifics were restricted to 40 mph in passenger service (LA&SL Special Rules No. 2, April 1935, pp. 2, 4).

That's about it for this time of "old heading" it in the switchmen's shanty. Running under "smoke orders," you ask? Well, that's a long excursion into Rule S-71 traffic control, something that would take quite a while. We have not even touched upon the kinds of rail traffic control. You just don't get on an engine and go, as they do in the movies.

Tuesday, September 26, 2006

Photographer A.J. Russell's family

From: "Beth Secor" djbsecor@hotmail.com

I am trying to find out if my great grandfather, who was a blacksmith and helped build the railroad from El Paso to Chihuahua around the turn of the last century is related by any chance to A.J. Russell. My great grandfather's name ... was James Arthur Russell. I realize they are not the same person. He was probably born sometime around 1870, although may be slightly younger. I know you may not be able to help me, but did A.J. Russell have brothers or was he ever married and had children? My grandfather, Russell's son – A.J. Marrs also worked for a short period for the railroad.

—Beth Secor

Monday, September 18, 2006

Transcontinental Journey

From: pigglewiggle121@comcast.net

How long did the journey on the Central Pacific railway take from Omaha to Sacramento? Like how many days? And were there sleeper cars on the train? What did people do for fun to pass the time?

Leases and transport records

From: "Shinn, Lindsay G"

I realize this is primarily about CPRR, but do you by chance have copies of leases made throughout the 1900s by Southern Pacific to others for property owned by Southern Pacific in Santa Barbara County? Do you have transport records of any sort that would show to whom shipments were delivered in Santa Barbara? If not, do you know where I may be able to obtain such documents?

—Lindsay Shinn

Lindsay G. Shinn
Mullen & Henzell L.L.P.
112 East Victoria Street
Santa Barbara, CA 93101
Phone: (805) 966-1501
Fax: (805) 966-9204

Sunday, September 17, 2006

CPRR Assistant Engineer Alonzo Russell Guppy

From: "Ginny Rutledge" ginsox@metrocast.net

I have researched Alonzo Guppy's family since they once lived in my parents farmhouse in Rochester, NH. His grandfather George bought the farm on the Salmon Falls River in 1817. I wanted to follow the lives of all the families that had lived on the farm since the original settlers in 1750, where they went and what they did. ... I have been researching with my cousin ... the originial proprietor lots were set out in 1728.

The Guppys are one of those families. Alonzo's grand-father George bought the farm in 1817 and I am fairly certain he moved (as they did then) the farmhouse and the barn where they currently sit and improved both extensively.

My cousin has told me her research supports that the earlier Guppys were sea-farers out of Portsmouth, NH.

Alonzo's father John died young and his mother Anna (Dame) Guppy moved the family to Rochester Village (and yes, his brother was George F Guppy the Civil War soldier). I followed Alonzo to CA and the Transcontinental RR.

—Ginny Rutledge

Friday, September 15, 2006

Train Wreck Question

From: EAllynM@aol.com

A distant relative, Charles P. Smith, allegedly died by drowning as a result of a train wreck in 1906. In 1900, he was living at St. Maries Idaho. In 1910, his widow was living at White Bird, Idaho.

Do you know of any train wrecks in Idaho or the surrounding states in 1906 in which one or more victims drowned? If so, could you please supply the dates and locations?

—Emily Moore

Thursday, September 14, 2006

Huntington Locomotive [URO]

From: "Antoine Naudy" antoinenaudy@yahoo.com

I recently found what could probably be parts of an old C.P. Huntington engine who crashed a long time ago in the forest. I didn't know at first what it was but took a picture of it and googled the things written on it. By looking at the picture could anybody tell me what it is exactly? I just feel like having found an UFO and I am very curious about it. What does F.A. or T. A. before Huntington stand for?  

—Antoine Naudy


unknown

unknown

unknown

Wednesday, September 13, 2006

Southern Pacific Railroad Company (Texas), 1856

Is the Southern Pacific Railroad Company that existed in Texas in 1856 the same company that the CPRR merged with in 1959?

Monday, September 11, 2006

CP Spike from Sacramento

From: kylewyatt@aol.com

[Here] are photos of a CP spike (or the mortal remains of it) found in Old Sacramento during the 1970s excavation of the CP Passenger Station site.  It appears to be wrought iron.  Does anyone have an idea when they switched to bar iron for making spikes?  

—Kyle


CP Spike from Sacramento. Courtesy Kyle Wyatt.

CP Spike from Sacramento. Courtesy Kyle Wyatt.

CP Spike from Sacramento. Courtesy Kyle Wyatt.
CP Spike from Sacramento.
Courtesy Kyle Wyatt, CSRM.

Sunday, September 10, 2006

How many workers?

From: "Kris Hara" harag004@hawaii.rr.com

How many workers (total) did it take to build the transcontinental railroad?

Thursday, September 07, 2006

Re: Parochial control of historical railroad data

Larry Gueller is overly pessimistic when he writes that " ... the bureaucratic subculture which resists doing anything beyond the bare minimum, controls the free dissemination of data. ... converting hard copy to electronic data files ... little gets accomplished. ... institutions seem to seek to turn inwards upon themselves in an effort of self-preservation leaving the seekers and researchers wanting. ... "

While bureaucratic paralysis is undoubtedly true at some, perhaps most institutions, there are some very notable counterexamples, and (to the extent permitted by copyright), millions of books will soon be available online:

Google announced in December, 2004, agreements with major research libraries to publish the full text of their book collections online over six years, including all eight million books at Stanford University and all seven million at the University of Michigan. Additional material will come from the Harvard and Oxford University Libraries and the New York Public Library. Search results for copyrighted books will be limited to short excerpts.

Many historic books relating to railroads are already available online via the Google Library Project, and just this week Google started making book downloads available.

The Online Archive of California has available "over 120,000 images; 50,000 pages of documents, letters, and oral histories; and 8,000 guides to collections ... "

The American Memory Project of the Library of Congress has also been very busy. "The National Digital Library exceeded its goal of making 5 million items available online by 2000." The Library of Congress railroad map collection, available online, is spectacular:

The University of Michigan and Cornell University's "Making of America ... collection currently contains approximately 9,500 books and 50,000 journal articles with 19th century imprints."

Progress always depends on what a very few are doing, so to get an accurate overview, it is essential to appreciate that the accomplishments where things are actually happening dominate, not the pervasive inaction elsewhere. As the bureaucratic institutions eventually come to realize that their competition is making them irrelevant, there will be a scramble to catch up, but all that will be left for them to scan are their unique holdings, as Stanford, Michigan, Harvard, etc. with Google's help will have already provided the rest.

Transcontinental Travel, 1880's

From: "Susan Spangler" suprsooz@msn.com

Can you tell me what the likely route and train would have been for someone traveling from San Francisco to Massachusetts in the year 1882/3?

I'm researching my family tree and know that my relatives traveled across country in the early 1880's and probably would have gone by train. Is there a website that would list fares, travel time and/or stops that would have been made on such a trip?

Also, did the railroads keep any type of passenger lists at that time?  

Susan LeGassick Spangler

Wednesday, September 06, 2006

Government Bond Payments to the CPRR

Rail travel from Bloomington IN to Monida Pass in Idaho/Montana in 1880

From: "Stephens, Larry V" stephenl@indiana.edu

I'm working on a book that includes rail travel from Bloomington, Indiana to Monida Pass in Idaho/Montana in 1880.

From what I've found so far there was track from the Mississippi River west to Utah and the then Utah & Northern ran up to the pass where it stopped (in 1880). I believe it was the U.P. that it connected with (I found new material today I've not had a chance to review).

I've also found material that tells me there was track from Chicago west that would link with the U.P. Was this the Illinois Central? Were cars switched between trains (i.e., you were not forced to unload cargo and reload it on another line's cars, were you?)?

What I can't find (so far) is track from Bloomington to link all this up. I believe the IC and perhaps the Monon went through Bloomington at that time. Can you point me to some information about this?

Also, if it's not asking too much:

How long would it take you to ride a train from Blomington to Monida Pass in 1880? 4-5 days?

How many loaded cars could an engine pull then? Did they ever link engines for more power?

—Larry V. Stephens

Monday, September 04, 2006

New Photographic History Resource

Howard Fogg handsigned litho

From: "Steve Gibson" steve@gibsons0.freeserve.co.uk

I am writing to ask for some information regarding the artist Howard Fogg, as I have a handsigned lithograph with a message from the artist and am thinking of selling it to someone who may appreciate it more than me.

I wondered if you could point me in the right direction. ...

—Steve


Howard Fogg lithograph. Courtesy Steve Gibson Collection.
"Sherman Hill '55"
Courtesy Steve Gibson Collection.

Sunday, September 03, 2006

'Pear' rail at Cisco

From: "Chris Graves" caliron@cwnet.com

I had the opportunity to escort a most pleasant tourist of Chinese descent today over the old grade. Included in that tour was the borrow pit at Cisco.

For those that have an interest, all of the pear rail at Cisco has been removed; the earliest branded rail noted was 1876 Carnegie, I would guess it to be 75 lb rail.

The original copper uninsulated telegraph wire is still abundant, I also saw one original construction spike.

That pear rail at Cisco was darn near the end of the rail still to be seen in the 'wild,' sure hope some Museum got it ...

—G J Chris Graves, NewCastle, MP 32

Friday, September 01, 2006

CPRR payroll records

From: crasmus3@bigred.unl.edu

I'm a history graduate student at the University of Nebraska-Lincoln working on a digital research project, "Railroads and the Making of Modern America." What I am looking for is any payroll lists of CPRR employees in from the 1840s-1880s (I'm especially interested in the strike year of 1877), and I noticed some employee names and positions on one of the museum's web pages

If your archive has them (usually they are bound volumes), then can some part of them (say the 1877 year) be copied and sent to me for a fee? If not, could you perhaps point me in the right direction so that I can find them? Thank you for responding to this inquiry quickly.

Chris Rasmussen
Department of History
University of Nebraska-Lincoln

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