In the Matter of the Appeal of

 LOCKMASTERS,
 476 North A1A,
 Satellite Beach, Florida 32937,

 Library Rate of Postage for: "Cutaway Combination Locks and
 Correspondence Course Materials on Combination Lock Manipulation"
 
 P.S. Docket No. 5/148
 
 August 25, 1977
 
 William A. Duvall Chief Administrative Law Judge
 
 APPEARANCES: J. Timothy Hobbs, Esq.
 Mason, Fenwick & Lawrence
 1730 Rhode Island Avenue, N.W. 
 Washington, D. C.  20036 for Petitioner

 Grayson M. Poats, Esq.
 Office of the General Counsel Office of
 Rates and Classification United States Postal Service
 Washington, D. C.  20260 for Respondent

Lockmasters School, (Petitioner) a partnership under the laws of the State of Florida, was organized in 1955, and for some years prior to 1973 was located in Rochester, New York. In 1973 the school was relocated to Satellite Beach, Florida, where it presently is situated. The purpose of the school, insofar as is pertinent to this proceeding, is to conduct correspondence training programs to teach persons how to manipulate and open various types of combination locks. (Tr. 9, 10, 47) In connection with this course of instruction, the following items are included with other materials mailed to enrollees: a three-ring notebook, binder large enough to hold pages 8 1/2" x 11" in size and containing lessons numbered 1 through 34, with an additional lesson designated as lesson 4-W, relating to 4-wheel, drop-lever type locks; multiple pads of graph paper and data sheets; eight combination locks made by various manufacturers; and a cutaway model of a lock used for instructional purposes. ^1/ (Ex. P-2)

At the time the school was relocated to Florida the course materials were being mailed by parcel post and by first class mail. The school manager obtained, through the superintendent at the Satellite Beach postal station, authorization to mail the course materials at the library fourth-class rate of postage. It is the belief of the school's manager that this rate of postage was approved by the postal superintendent at Satellite Beach and by the postmasters at Melbourne and Orlando, Florida. (Tr. 13-14)

On July 2, 1975, the Postmaster at San Diego, California, requested the Office of Mail Classification, United States Postal Service, (Respondent) to determine the eligibility for the fourth-class library rate of a combination lock being sent to the Lockmasters School, Satellite Beach, Florida (Ex. R-2). The Director, Office of Mail Classification, informed the San Diego Postmaster by letter dated November 13, 1975, that the safe lock in question was not eligible for the library rate (Ex. R-3).

Following this ruling, Counsel for Petitioner requested a meeting to discuss the matter (Tr. 114). Petitioner's Counsel also addressed a letter, dated April 30, 1976, to Respondent setting forth the position of Lockmasters that "its cutaway combination locks, supplied in conjunction with correspondence course materials in locksmithing, comprise 'mathematical instructions'" within the ambit of the library rate regulation (R-4 at page 6). This letter was considered as an appeal of the November 13, 1975, ruling (Tr. 114-115) and was responded to on August 10, 1976 (Ex. R-5). In the response it was stated that although Petitioner's comments had been noted, it was still Respondent's position that the combination lock was not a mathematical instrument. In Respondent's view the locks were mechanical instruments and subject to the fourth-class zone rates of postage.

At approximately the same time as this latest ruling, the Manager of Lockmasters School (Tr. 8), requested a meeting with Respondent (Tr. 116). Following the meeting, Respondent issued a further ruling, dated September 29, 1976, which stated, in part, that:

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"Neither the locks by themselves, nor the locks in combination with the course materials are scientific kits, instruments or other devices. A combination lock is a mechanical device. The manipulation of this lock is basically a mechanical procedure. The course materials do not involve instruction in scientific or mathematical principles. They teach a student how to manipulate a mechanical device."

Respondent concluded that neither the course materials, nor the locks, nor any combination of the two, may be mailed at the library rate (Ex. R-6).

On October 12, 1976, Lockmasters filed a Complaint in the United States District Court for the District of Columbia (Civ. No. 76-1888) seeking judicial review of Respondent's final ruling, and injunctive relief against the Postal Service to prevent it from withholding the library rate for Lockmasters mailings. Lockmasters and the Postal Service then entered into a Stipulation, which later was partially modified, and which stated, in pertinent part, that:

"Mr. Ralph Osborne, the Assistant Postmaster General, Rates & Classification Department, United States Postal Service, will review Plaintiff's appeal and issue a decision. Plaintiff may submit additional briefs or documents to Mr. Osborne.

"If Assistant Postmaster General Osborne denies Lockmasters' appeal, then Plaintiff shall have the right to appeal that decision to the Office of Administrative Law Judges, United States Postal Service. A proceeding before an Administrative Law Judge will be conducted pursuant to the Rules of Practice in 39 C.F.R. 954 (1976), with one exception that the decision of the Administrative Law Judge shall be the final agency decision, with no right of appeal to the Judicial Officer by either Plaintiff or Defendants."

The Court ordered, on December 29, 1976, that further proceedings in the case be stayed pending further application of the parties.

Pursuant to the Stipulation, Lockmasters wrote a letter of appeal to Mr. Ralph Osborne on February 4, 1977, reasserting its position that the combination locks were mathematical instruments. (Ex. R-7)

By letter dated March 9, 1977, Respondent advised Petitioner, in substance and effect, that Respondent had concluded that Petitioner's cutaway locks and correspondence course materials on combination lock manipulation are not eligible for the library rate of postage. (Ex. R-1)

By letter dated March 31, 1977, Lockmasters appealed Mr. Osborne's decision to the Office of Administrative Law Judges for a full administrative hearing under the terms of the Stipulation. The Postal Service filed an Answer on April 5, 1977, and a hearing was held on May 25, 1977, in Washington, D. C.

The issue in this proceeding is whether Petitioner's combination locks and Petitioner's correspondence course materials on combination locks are "scientific or mathematical kits, instruments or other devices" within the meaning of 135.26b(4) of the Postal Manual. If this issue is disposed of in the affirmative, the materials in question will be eligible for mailing at the fourth-class library rate.

The pertinent provisions of the governing regulation are found in 135.26b(4) of the Postal Manual and they provide as follows:

"b. The following specific items when sent to or from schools, *** may be mailed at the library rate:

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(4) Scientific or mathematical kits, instruments, or other devices.

(5) Catalogs of the materials in 135.26b(1) - (4) and guides or scripts prepared solely for use with such materials."

The Petitioner's course and materials have been referred to earlier, and Respondent, in its Brief, presented a careful, accurate, and detailed outline of the content of the course. The salient portions of this outline are attached hereto as Appendix A, the contents of which are incorporated herein by reference to the same extent and effect as if they were set forth herein at length and the contents of Appendix A are adopted by the undersigned. The terms used later in this decision with reference to parts of a combination lock are defined in Appendix A.

In summary, Appendix A sets forth an outline of procedures promulgated by Petitioner by means of which persons are taught to manipulate combination locks using a very exact method which features the use of numbers on the calibrated dial face of the lock to measure nearly imperceptible variations in the interior wheels of the lock. The measurements, taken from the calibrated dial, are used to plot graphs on paper which, when completed for each interior wheel, indicate where the gate on each wheel is likely to be. Further, more refined measurements are taken using the calibrated dial to locate the "true center" of the gate for each interior wheel, thus indicating to the lock manipulator what the position of each wheel must be in relation to the others, so as to align all gates and allow the fence to drop in place, enabling the lock to be opened. (Tr. 19, Petitioner's Initial Brief, p. 3)

Because of the language of the governing regulation, emphasis was placed on the definitions of certain words. These definitions are ^2/ from Webster's Third New International Dictionary, as quoted in Petitioner's letter of April 30, 1976, (Ex. R-4) and Petitioner's Initial Brief, p. 3:

MATHEMATICAL - 1 a: Of, relating to, or having the nature of mathematics, b: derived by or in accordance with mathematics . . .

MATHEMATICS - 1: a science that deals with the relationship and symbolism of numbers and magnitudes and that includes quantitative operations and the solution of quantitative problems (emphasis supplied)

SCIENTIFIC METHOD: the principles and procedures used in the systematic pursuit of intersubjectively accessible knowledge and involving as necessary conditions the recognition and formulation of a problem, the collection of data through observation and if possible experiment, the formulation of hypotheses, and the testing and confirmation of the hypotheses formulated.

To the foregoing definitions, another, from the same source, must be added because of the use of the term "mechanical" by Respondent to describe combination locks.

MECHANICAL: 1 a: of, relating to, or concerned with machinery or tools: produced or operated by a machine or tool; b: of or relating to manual operations....

Mr. Rex Parmelee, Manager of Lockmasters School, described the operation of the cutaway lock, outlined in some detail the steps previously alluded to in following the course of instruction, and stated that the course was designed to teach certain scientific principles by a scientific method. (Tr. 19, 23-37, 67)

2/ Petitioner included the definition of "Locksmith" in its presentation, but there is no need for the definition of that word in this proceeding.

Mr. Harry C. Miller, one of the partners owning Petitioner, testified with respect to the development of the school as an outgrowth of the need for security in World War II; that he spent hours and hours developing the system; and that the system constitutes a "scientific method" incorporating the four ingredients stated in the definition of that term previously quoted. He is of the belief that the cutaway lock is a mathematical instrument because "It certainly is a calibrated instrument and we are seeking out the numerical information contained therein." (Tr. 48-51, 52, 54-56)

On cross-examination it was pointed out to Mr. Miller that radio dials are calibrated and have numerals on them. On being asked whether the changing of a station on a radio dial involves a mathematical method, he replied in the negative. (Tr. 62)

Petitioner's last witness was Mr. William Liles, the holder of a Bachelors Degree in Electrical Engineering and a Masters Degree in Science, which encompass an extensive number of courses in mathematics. He has been employed in a number of positions in the computer science field and he has published a number of papers on the subject of computers. He is presently employed by Technology Services Corporation, Santa Monica, California, where he is engaged in computer science research. (Tr. 73, 74, 76-77)

Mr. Liles testified that in his opinion the course materials under consideration here, including the cutaway lock, are eligible for the library fourth class mail rates applicable to "scientific and mathematical kits, instruments or other devices." He is of the opinion, also, that a "scientific method" is used in the manipulation course. He concurred with Mr. Miller that all of the requisite steps set forth in the dictionary definition for "scientific method" are present in Petitioner's method of manipulation of combination locks. (Tr. 81-83)

The crux of the testimony of Mr. Liles came in response to a question as to whether using the above dictionary definition of "mathematics", the cutaway lock is a "mathematical instrument". Mr. Liles replied in the affirmative and added this explanation:

"What I am going to say is best shown by the cutaway but applies to all the locks.

"This lock -- The dial, the dial wing, going back to the drive cam and the lever are used similar to a micrometer to take measurements. They are measuring the tolerances of the lock. They are not measuring them in any absolute sense, but what they give you is a function which is the maximum radius of the three wheels underneath it, what is needed, and this problem is just the relativeness of that. Absolute numbers are unnecessary.

"The lock is used for another thing also. The dial indicator is also used as inputs to the system in order to set those wheels into system positions. That is when you go to the two and a half numbers around. This thing is similar in that regard to a slide rule. A slide rule you have two mechanical pieces, a slide next to each other. They happen to have certain markings on them. Those markings don't have to be where they are. They could be shifted any way as long as there is certain relationship. You slide one piece versus another one in order to set up the inputs. That is using the dial to give the inputs into this system. You then slide across there to a place to obtain an answer. Well, you take this dial and you turn it so the drive cam is underneath the nose and take your readings. You are taking the output. Every single time I set all wheels at the number 30 and go back to the contact area I will obtain the same readings just as a slide rule. Every time you multiply two times two you get four. Environmental considerations, you know, in that notwithstanding.

"A slide rule, what is really going on, is you are adding. You don't have to know what the -- You are adding two distances. This thing is measuring the function of the radius of those three wheels. It is the maximum of those three wheels in this case. It is doing the same thing as far as I am concerned." (Tr. 84-86)

In addition, Mr. Liles testified that a combination lock is not always a mathematical instrument, but that such a lock becomes a mathematical instrument when it is used to set certain inputs to receive certain outputs in the way the course uses the cutaway, and other, locks. This statement would be true in a manipulation environment as well as in a teaching environment. (Tr. 87)

The provision of former 39 U.S.C. 4554(c) concerning "scientific or mathematical kits, instruments or other devices" was enacted as part of Public Law No. 86-644 (July 14, 1960).^3/ The bill from which Public Law No. 86-644 was derived (H.R. 4595)

3/ This provision was codified as part of 39 U.S.C. 4554(c) by Pub. L. No. 87-646 (September 7, 1962) and modified slightly by Pub. L. No. 87-793 (October 11, 1962). did not contain the "scientific and mathematical" provision when it passed the House of Representatives. ^4/ However, during the Senate hearing on H.R. 4595, ^5/ representatives of the Science Materials Center proposed an amendment to H.R. 4595 to grant library rate treatment to educational materials designed to develop aptitudes and interests in the fields of science and mathematics. ^6/

When H.R. 4595 reached the Senate, the Subcommittee was deeply concerned lest the bill open up the library rate to far too vast a volume of material. This concern was expressed in the following excerpt from statements by Chairman Monroney: ^7/

"Senator Monroney. In reading your proposed amendment, it is as wide open as a barn door. I could manufacture a little giant rocket and sell fireworks, I think, if I issued an eight-page booklet on how to shoot fireworks off. I couldn't think of the Congress opening the rate on education to things that perhaps you are not manufacturing, but almost every kind of toy store kit would be finding its way into the subsidized postal rate.

"Speaking for the chairman of this subcommittee alone, it is going to have to be as tight as language can make it or I would never recommend passage of this, because every toy store you go into has these little chemistry outfits with which the child can mix together three or four different kinds of powder and come up with something. Obviously it is educational, but it is more recreational than educational, I think, and after the Christmas season is over, after the bloom is off the Christmas tree, it finds its way into the ashcan; but it would have been subsidized heavily.

"Now I am going to ask the Post Office Department to comment on this. I certainly think it is incumbent on any of the scientific apparatus manufacturers to nail this down so tightly that we will not be opening any avenue for the transmission of toys under the guise of educational materials, even if they have certain elements of educational value.

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4/ H. Rept. 252, 86th Cong., 1st Sess.

5/ Hearing before the Subcommittee on Post Office of the Committee on Post Office and Civil Service, United States Senate, 86th Cong., 1st Sess. (July 8, 1959).

6/ Senate hearing at page 20.

7/ Senate Hearing at pages 27-28.

"We will have to have language of the very tightest, to be sure, if we do consider this seriously--and I think you have made a good case for the quality type of scientific apparatus--that it is that and that alone that is getting the subsidized rate.

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"It is a very limited category that you are seeking admission to. Unless it is very limited and very specific, I think you will find great trouble in getting the Congress to consider it."

The measure was amended so as to include its present language, and with that language included the bill was enacted.

6. Because combination locks are composed of machined parts, there are minor differences in the dimensions of the parts of the locks. These differences are acceptable within certain limits known as "tolerances." Manipulation takes advantage of these various tolerances by allowing the locksmith to determine the combination by observing the changes in the operation of the lock caused by the effect of the tolerances (P-2, Lesson 1) ^1/.

7. In order to explain how these changes occur and how they may be used to open a lock, Lockmasters supplies its students with a sample lock (P-2, Package 1) whose top and back plates have been cut away to permit the student to view the inner operation of the lock. For purposes of this discussion, a number

1/ Lesson numbers refer to lessons in the green notebook binder containing the instructions for the course. of drawings taken from the course material are provided as Exhibit 1 to this Appendix to assist in the explanation of manipulation.

Combination locks have a number of wheels and a drive cam which are activated by turning the front dial. Each wheel has a slot in it called a gateway. Each gateway corresponds to a different number in the lock's combination. The lock also has a lever which rests on the drive cam (see figures 2 and 3 of Exhibit 1 to this Appendix) ^2/ and which is connected to the bolt mechanism. A bar (fence) attached to the lever extends horizontally across the wheels of the lock and drops down to rest on the wheels when the nose of the lever drops into the depression (gateway) in the drive cam (see figures 4 and 5). Because of the tolerances of the lock, the wheels will not be identical in size or alignment and the fence will not be perfectly perpendicular to the top surface of the wheels (see figures 2 and 3). Therefore, the fence will normally rest on only one wheel when it is lowered by action of the drive cam (P-2, Lesson 1).

8. The manipulation course instructs the student to identify the points at which the nose of the lever touches the sides of the drive cam gateway -- left and right contact points (see figures 4 and 5). He is told to read the number on the dial that corresponds to each point (P-2, Lesson 2-4) and plot it on a graph (included with Exhibit 1 to this Appendix) provided by Lockmasters (P-2, Lesson 6). The student is told to take readings for each 2 1/2 incremental movement of the dial (P-2, Lesson 7). The method described results in the gradual advancement of the wheels through their full circumference under the lowered fence. Special instructions are provided to guide the student's manipulation of the lock when the dial readings are in the area where the nose of the lever fits into the drive cam gateway -- the contact area (P-2, Lesson 8).

9. At some point the gateway of the highest wheel will be moved under the fence and the fence will drop into that gateway until it rests upon the edge of the next highest wheel. This lowering of the fence results in a corresponding lowering of the nose of the lever into the drive cam gateway. This will narrow the distance between the left and right contact points and result in a narrower range in the left and right readings on the dial. This change will appear as a set of dips in the graph (P-2, Lesson 9). By taking more detailed readings in the range of these dips, the student locates the true center of the indication of change in the lock (P-2, Lesson 9). The true center reading on the dial is one of the numbers of the lock's combination because it occurs at the point where the fence dropped into a gateway.

10. The next step in the course is to determine which wheel's gateway produced the true center indication. This is accomplished by following a step-by-step, detailed set of test combinations on the lock (see P-2, Lessons 10-11). Data Sheet A is provided for this purpose and spells out exactly what the student must do to run the tests (see Exhibit 1 to this Appendix and the filled-in Data Sheet A at P-2, Lesson 11, page 4). The tests place the test number on each wheel and the resulting readings show which wheel carries the true center number (P-2, Lesson 11).

11. The process is then repeated to determine another true center and its correct wheel (P-2, Lessons 12-16). After two numbers are known, it is not necessary to graph the last series of test combinations because the lock will open when the last low area is reached (P-2, Lesson 17).

12. The remainder of the course teaches the correct data sheets to use if a different wheel's true center is found first (P-2, Lessons 18-25) and the methods to use with other types and brands of locks (P-2, Lessons 26-34).

13. It would not be necessary for the student to plot the contact point readings on the graph. The same result could be derived if the readings were simply listed and compared. (Tr. 39)

1/ Not all of these materials are mailed to the student at one time. (Tr. 15)

2/ Hereafter in this Appendix when reference is made to "figure 1" etc. the reference will be, unless otherwise indicated, to the figures shown in Exhibit 1 to this Appendix.