202,658 research outputs found
Fundamental Study of the Fill-in Minimization Problem
In this paper the fill-in minimization problem which arises
at the application of the sparse matrix method for a large sparse set of linear equations is discussed from the graph-theoretic viewpoint and also through the numerical experiments. Therefore, this investigation consists of two parts, and in the former part the author shows, at first, that the elimination process of a sparse matrix is equivalently replaced to the vertex eliminations for a graph obtained from the matrix, and by use of some concepts
in the theory of graph he proves that the vertex elimination process for the minimum fill-in is equivalent to the vertex eliminations for vertices in each subgraph which is obtained by the appropriate dissection of whole graph, and that there are only two types of vertex eliminations through the process. This results in the proposal of a new model of the vertex elimination process. The latter part of this investigation is used for the verification of the results from the theoretic investigation. Through the numerical experiments he concludes that the new model of the vertex elimination process is valid, at least, for a graph like a regular finite element mesh. Furthermore, he shows that this model coincides with Nested Dissection Method which can give the minimum value of fill-in, at present
Form, Instructions for Release, Hoshiichiro Taniguchi.
Form includes personal details (Name, Address, No . In Family) and instructions for release from Santa Anita. Instructions include assembly point, train number, departure time, destination, meal time, and baggage requirements. Form is signed in agreement by Hoshiichiro Taniguchi and the Personnel Relations Representative. 1 page, single sided. Paper, ink.Collected by Hoshichiro Taniguchi at Heart MountainINSTRUCTIONS FOR RELEASE
1. Name: Taniguchi, Hoshiichiro
Address: B16 U4 A/S J D 7
No. in family: 4
2. IDENTIFICATION TAGS MUST BE WORN IN
PLAIN SIGHT: Tags issued 4
3. Your assembly point is at the Inner
Gate: 8/30/42 6:30 am.
4. Train No.: 3 Car No.: 7
Leave at: 8/30/42 7:00 a.m.
Destination: Wyoming
Car Monitor: Iri
5. Your last meal served at Green Mess 6:30 am.
6. Baggages:
a. Hand luggage tags issued 6
b. Baggage tags issued 10
Adult 100# Children 50#
MARK YOUR NAME AND CAR NO. CLEARLY ON EACH
ARTICLE.
c. Freight tags issued 10
MARK YOUR NAME AND DESTINATION CLEARLY ON EACH ARTICLE.
7. Change of address:
a. P.O. Form #22 - (#1) yes
b. " " " - (#2) yes
c. Alien registration 3142576 3467085 5889743
8. Crating materials, lumber, nails, etc.,
obtainable at: Barr. 26, Ave. A -
Carpenter Shop
9. Hospital data checked? None
10. For further information go to your local
district information office.
11. Above informations have been explained to
me fully and I understand same.
Signed: Yoshiko Taniguchi
Signed: J. H. M. Personnel Relations Rep
A Reexamination of the Crystal Structure of m-Fluorobenzamide
The crystal structure of m-fluorobenzamide has been refined using three-dimensional X-ray data. It is confirmed that two isomeric molecular configurations previously reported by Taniguchi et al. exist in a crystal
Effect of the dynamic pressure on the shock wave structure in a rarefied polyatomic gas
We study the shock wave structure in a rarefied polyatomic gas based on a simplified model of extended thermodynamics in which the dissipation is due only to the dynamic pressure. In this case the differential system is very simple because it is a variant of Euler system with a new scalar equation for the dynamic pressure [T. Arima, S. Taniguchi, T. Ruggeri, and M. Sugiyama, Phys. Lett. A 376, 2799–2803 (2012)]. It is shown that this theory is able to describe the three types of the shock wave structure observed in experiments: the nearly symmetric shock wave structure (Type A, small Mach number), the asymmetric structure (Type B, moderate Mach number), and the structure composed of thin and thick layers (Type C, large Mach number)
Online_appendices – Supplemental material for Parental Confirmation and Emerging Adult Children’s Body Image: Self-Concept and Social Competence as Mediators
Supplemental material, Online_appendices for Parental Confirmation and Emerging Adult Children’s Body Image: Self-Concept and Social Competence as Mediators by Emiko Taniguchi and René M. Dailey in Communication Research</p
Book, War Ration, Izumi Taniguchi
Booklet titled "War Ration Book 2" and published by the United States of America's Office of Price Administration. The booklet contained stamps that could be used to purchase rationed goods and instructions on the use of the book. This booklet was for Izumi Taniguchi and has his name and personal information on the front page. The front page is signed near the bottom by Taniguchi and the issuing officer. The front page has Great Seal of the United States in the upper left hand corner and a stamp labeled "Office of Price Adm" in the upper right hand corner. The back page has instructions on how to use the stamps and stresses why rationing is important. On the back page in the bottom left hand corner the document reads "U.S. Government Printing Office: 1942". 2 pages, single sided. Paper, ink.Collected by Hoshichiro Taniguchi at Heart Mountain(Fold along dotted line)
No. 872425AN
UNITED STATES OF AMERICA
OFFICE OF PRICE ADMINISTRATION
WAR RATION BOOK TWO
IDENTIFIECATION
Izumi Taniguchi (Name of person to whom this book is issued)
17-22-B (Street number or rural route)
Heart Mtn (City or post office) Wyo (State) 47 (Age) M (Sex)
ISSUED BY LOCAL BOARD NO. 11 Park (County) Wyo (State)
Heart Mtn (Street address of local board) (City)
By [Joe Carroll?] (Signature of issuing officer)
SIGNATURE Izumi Taniguchi
(To be signed by the person to whom this book is issued. If such person is unable to sign because of age or incapacity,
another may sign in his behalf)
WARNING
1 This book is the property of the United States Government. It is unlawful to sell or give it to any other person or to
use it or permit anyone else to use it, except to obtain rationed goods for the person to whom it was issued.
2 This book must be returned to the War Price and Rationing Board which issued it, if the person to whom it was
issued is inducted into the armed services of the United States, or leaves the country for more than 30 days, or dies.
The address of the Board appears above.
3 A person who finds a lost War Ration Book must return it to the War Price and Rationing Board which issued it.
4 PERSONS WHO VIOLATE RATIONING REGULATIONS ARE SUBJECT TO $10,000 FINE OR IMPRISONMENT, OR BOTH.
OPA Form No. R-121 l6--30853-1
INSTRUCTIONS
1 This book is valuable. Do not lose it.
2 Each stamp authorizes you to purchase rationed goods in the quantities and at the times
designated by the Office of Price Administration. Without the stamps you will be unable to
purchase those goods.
3 Detailed instructions concerning the use of the book and the stamps will be issued from time
to time. Watch for those instructions so that you will know how to use your book and stamps.
4 Do not tear out stamps except at the time of purchase and in the presence of the storekeeper,
his employee, or a person authorized by him to make delivery.
5 Do not throw this book away when all of the stamps have been used, or when the time for their
use has expired. You may be required to present this book when you apply for subsequent
books.
Rationing is a vital part of your country's war effort. This book is your Government's guar-
antee of your fair share of goods made scarce by war, to which the stamps contained herein will
be assigned as the need arises.
Any attempt to violate the rules is an effort to deny someone his share and will create
hardship and discontent.
Such action, like treason, helps the enemy.
Give your whole support to rationing and thereby conserve our vital goods. Be guided by
the rule:
"If you don't need it, DON'T BUY IT." * U. S. GOVERNMENT PRINTING OFFICE: 1942 16--30863-
Non-linear extended thermodynamics of real gases with 6 fields
Received 5 February 2015 Accepted 5 February 2015 Available online 13 February 2015
Keywords:
Extended thermodynamics Non-equilibrium thermodynamics of gases Meixner's theory
Dynamic pressure
1. Introduction
Rational extended thermodynamics [1] (hereafter referred to as ET)1 is a thermodynamic theory that is applicable to non-equilibrium phenomena with steep gradients and rapid changes in space–time, which may be out of local equilibrium. It is expressed by the hyperbolic system of field equations with local constitutive equations.
As ET has been strictly related to the kinetic theory with the closure method of the hierarchy of moment equations, the applic- ability range of the theory has been restricted within rarefied monatomic gases. Only recently, however, the ET theory of dense gases and of polyatomic rarefied gases has been successfully devel- oped by the present authors obtaining a 14-field theory that, in the limit of small relaxation times (parabolic limit), reduces to the Navier– Stokes–Fourier classical theory [2]. This new approach to the case of polyatomic rarefied gases, in particular, is in perfect agreement with the closure procedure using the Maximum Entropy Principle (MEP) at the kinetic level in which the distribution function depends on an extra variable that takes into account the influence of degrees of freedom of a molecule on energy transfer during collisions [3].
n Corresponding author.
E-mail addresses: [email protected] (T. Arima),
[email protected] (T. Ruggeri), [email protected] (M. Sugiyama), [email protected] (S. Taniguchi).
1 Rational extended thermodynamics is sometimes referred to as RET in order to distinguish it from other approaches in extended thermodynamics. However, in this paper, we use, for simplicity, the acronym ET for indicating rational extended thermodynamics.
http://dx.doi.org/10.1016/j.ijnonlinmec.2015.02.005
0020-7462/& 2015 Elsevier Ltd. All rights reserved.
abstract
We establish extended thermodynamics (ET) of real gases with 6 independent fields, i.e., the mass density, the velocity, the temperature and the dynamic pressure, without adopting the near-equilibrium approxima- tion. We prove its compatibility with the universal principles (the entropy principle, the Galilean invariance and the stability), and obtain the symmetric hyperbolic system with respect to the main field. In near- equilibrium we recover the previous results. The correspondence between the ET 6-field theory and Meixner's theory of relaxation processes is discovered. The internal variable and the non-equilibrium temperature in Meixner's theory are expressed in terms of the quantities of the ET 6-field theory, in particular, the dynamic pressure. As an example, we present the cases of a rarefied polyatomic gas and study the monatomic-gas limit where the system converges to the Euler system of a perfect fluid
Dr. Duane M. Jackson, Morehouse College, July 2011
This video is a conversation with Dr. Duane M. Jackson. Dr. Jackson talks about his paper, "Recall and the Serial Position Effect: The Role of Primacy and Recency on Accounting Students' Performance." Jackie Daniel, AUC Woodruff Library, is the interviewer
Land and marine hydrogeology
edited by M. Taniguchi, K. Wang, T. Gamo.viii, 199 p. : ill., maps ; 27 cm
On the Iwasawa-Taniguchi effect of radio-quiet AGN
Aims.The existence of an anti-correlation between the Equivalent Width (EW) of the neutral narrow core of the iron Kα emission line and the 2–10 keV luminosity (the so-called “X-ray Baldwin” or “Iwasawa-Taniguchi” effect) has been debated in the last years. We aim at testing this claim on the largest catalogue of radio quiet AGN high-quality X-ray spectra ever published.
Methods.The final sample comprises 157 objects. We search for a relation of the iron line EW not only with the X-ray luminosity, but also with the Black Hole mass, the Eddington ratio and the cosmological distance. The data presented here were analyzed homogeneously, all spectra are from the same instrument and with high Signal-to-Noise Ratio.
Results.A linear censored fit on the EW versus 2–10 keV luminosity is highly significant and yields = (1.73±0.03) + (-0.17±0.03) ), where EWFe is the EW of the neutral iron Kα line in eV andLX,44 is the 2–10 keV X-ray luminosity in units of 1044 erg s-1. The anti-correlation with the Eddington ratio is also very significant, while no dependence of the iron EW on the BH mass is apparent
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