What is Psychology?

1859 ◽  
Vol 6 (31) ◽  
pp. 39-49
Author(s):  
J. Stevenson Bushnan
Keyword(s):  
Point Of View ◽  
General Character ◽  
Wide Field ◽  
Human Knowledge ◽  
The Earth ◽  
The Senses ◽  
Moral Certainty ◽  
Definition Of ◽  
Made In

Physiology is co-extensive with organic nature. Organic nature is wholly composed of individuals, comprising the two great kingdoms of plants and animals. A unity of structure pervades the whole of this wide field of nature; and this unity is a great principle, applicable to the determination of truth in the investigation of this part of knowledge. Every individual in organic nature is a system made up of reciprocally dependent and connected parts. The objects of investigation in physiology are phenomena, organs, and principles. The study of phenomena stands first in order; but while it must essentially be first cultivated and advanced, in the ulterior stages of its progress it gains continually fresh additions from the progress made in the knowledge of organs and principles. That phenomena attract attention before organs, is manifest on the slightest consideration. Thus the phenomena of locomotion were familiar to mankind long before the part taken by the muscular flesh in locomotion was discovered. To this moment it is far more certain that absorption takes place throughout the animal body, than what the organs are by which that office is performed. And it would be easy to multiply examples of the same kind, not-withstanding that there are some phenomena of the human body—such as those connected with the sense of sight, the sense of hearing, and other senses—the organs concerned in which must have been known, in a general manner, almost as soon as the earliest phenomena in which they are concerned. Principles, in their larger sense, take their place subsequently to the study of organs; yet, as referring to the more common genera of phenomena, these must also have had their rise almost coeval with the observation of phenomena. Thus the grouping of colours, sounds, smells, and tastes together, under the name of qualities derived from sense, must have been a very early and universal generalization. Nevertheless, it will, I think, be conceded, after these examples, that the study of phenomena is of a more elementary character in physiology, than the study of organs and principles; and, therefore, in the difficult parts of any physiological subject, that more progress is likely to be made by the study of phenomena, than by the study of organs and principles. But before proceeding further, it may be desirable to give some examples of physiological phenomena:—the alternation of sleep and waking; of hunger and satiety; thirst; the effect of drink; breathing; the exercise of the senses, and trains of thought; the various kinds of locomotion, walking, running, leaping, dancing. Here a question naturally arises—if trains of thought be physiological phenomena, does not all human knowledge fall within the definition of physiological phenomena? If the human race were not yet called into being, neither would human knowledge, it is true, have any existence in the world. And, it is doubtless true, under one point of view, that all that man has discovered; all that he has recorded; all the changes which he has made upon the earth since his first creation—are the effects of his physiological nature. But to place all knowledge under the head of physiology would be to defeat the very end of methodical arrangement, to which the progress of knowledge is so largely indebted. Nor is it difficult to mark out at least the general character of the boundaries within which physiology, in the largest sense in which it is convenient to accept it, should be circumscribed. Let us take as an example man's susceptibility of locomotion. It is a sufficient illustration of the physiology of locomotion to point out, that every man without any extraordinary effort learns to walk, run, hop, leap, climb; but there is at least a manifest convenience in separating such more difficult acquisitions as dancing, skating, writing, from the order of physiological phenomena, and placing each in a department by itself, as subject to its own rules. So also it is at least a convenience to consider painting and music as separate departments of study, and not merely as physiological phenomena, falling under the senses of sight and of hearing. It may be supposed to be a matter of the like convenience, to separate from physiology all the phenomena which enter into what are commonly called trains of thought; that is nearly all that comes under the head of psychology, in its most appropriate extent of signification. But several objections will readily occur to such a mutilation of physiology. In particular, it is objectionable, because, as was already hinted, the phenomenal departments of physiology, though the first to take a start, are often much augmented by the subsequent study of the organs concerned; and, more so that, since psychology, disjoined from physiology, and limited to one mode of culture, namely, by reflexion on the subjects of consciousness, were psychology thrown out from physiology, the probable advantages from the study of the organs concerned in the mental processes, and the other modes of culture, admissible in physiological enquiry, would be lost. If it be said that psychology proper rejects all evidence, except the evidence of consciousness, on no other ground, but because of the uncertainty of every other source of evidence—the answer is, that in those sciences which have made most progress, possibility, probability, and moral certainty have always been admitted as sufficient interim grounds for the prosecution of such inquiries as have finally, though at first leading to inexact conclusions, opened the way to the attainment of the most important truths; and that psychology, by the over-rigidness of its rules of investigation, has plainly fallen behind sciences, in advance of which it at one time stood in its progress.

scholarly journals What is Psychology?

1859 ◽  
Vol 6 (31) ◽  
pp. 39-49
Author(s):  
J. Stevenson Bushnan
Keyword(s):  
Point Of View ◽  
General Character ◽  
Wide Field ◽  
Human Knowledge ◽  
The Earth ◽  
The Senses ◽  
Moral Certainty ◽  
Definition Of ◽  
Made In

Physiology is co-extensive with organic nature. Organic nature is wholly composed of individuals, comprising the two great kingdoms of plants and animals. A unity of structure pervades the whole of this wide field of nature; and this unity is a great principle, applicable to the determination of truth in the investigation of this part of knowledge. Every individual in organic nature is a system made up of reciprocally dependent and connected parts. The objects of investigation in physiology are phenomena, organs, and principles. The study of phenomena stands first in order; but while it must essentially be first cultivated and advanced, in the ulterior stages of its progress it gains continually fresh additions from the progress made in the knowledge of organs and principles. That phenomena attract attention before organs, is manifest on the slightest consideration. Thus the phenomena of locomotion were familiar to mankind long before the part taken by the muscular flesh in locomotion was discovered. To this moment it is far more certain that absorption takes place throughout the animal body, than what the organs are by which that office is performed. And it would be easy to multiply examples of the same kind, not-withstanding that there are some phenomena of the human body—such as those connected with the sense of sight, the sense of hearing, and other senses—the organs concerned in which must have been known, in a general manner, almost as soon as the earliest phenomena in which they are concerned. Principles, in their larger sense, take their place subsequently to the study of organs; yet, as referring to the more common genera of phenomena, these must also have had their rise almost coeval with the observation of phenomena. Thus the grouping of colours, sounds, smells, and tastes together, under the name of qualities derived from sense, must have been a very early and universal generalization. Nevertheless, it will, I think, be conceded, after these examples, that the study of phenomena is of a more elementary character in physiology, than the study of organs and principles; and, therefore, in the difficult parts of any physiological subject, that more progress is likely to be made by the study of phenomena, than by the study of organs and principles. But before proceeding further, it may be desirable to give some examples of physiological phenomena:—the alternation of sleep and waking; of hunger and satiety; thirst; the effect of drink; breathing; the exercise of the senses, and trains of thought; the various kinds of locomotion, walking, running, leaping, dancing. Here a question naturally arises—if trains of thought be physiological phenomena, does not all human knowledge fall within the definition of physiological phenomena? If the human race were not yet called into being, neither would human knowledge, it is true, have any existence in the world. And, it is doubtless true, under one point of view, that all that man has discovered; all that he has recorded; all the changes which he has made upon the earth since his first creation—are the effects of his physiological nature. But to place all knowledge under the head of physiology would be to defeat the very end of methodical arrangement, to which the progress of knowledge is so largely indebted. Nor is it difficult to mark out at least the general character of the boundaries within which physiology, in the largest sense in which it is convenient to accept it, should be circumscribed. Let us take as an example man's susceptibility of locomotion. It is a sufficient illustration of the physiology of locomotion to point out, that every man without any extraordinary effort learns to walk, run, hop, leap, climb; but there is at least a manifest convenience in separating such more difficult acquisitions as dancing, skating, writing, from the order of physiological phenomena, and placing each in a department by itself, as subject to its own rules. So also it is at least a convenience to consider painting and music as separate departments of study, and not merely as physiological phenomena, falling under the senses of sight and of hearing. It may be supposed to be a matter of the like convenience, to separate from physiology all the phenomena which enter into what are commonly called trains of thought; that is nearly all that comes under the head of psychology, in its most appropriate extent of signification. But several objections will readily occur to such a mutilation of physiology. In particular, it is objectionable, because, as was already hinted, the phenomenal departments of physiology, though the first to take a start, are often much augmented by the subsequent study of the organs concerned; and, more so that, since psychology, disjoined from physiology, and limited to one mode of culture, namely, by reflexion on the subjects of consciousness, were psychology thrown out from physiology, the probable advantages from the study of the organs concerned in the mental processes, and the other modes of culture, admissible in physiological enquiry, would be lost. If it be said that psychology proper rejects all evidence, except the evidence of consciousness, on no other ground, but because of the uncertainty of every other source of evidence—the answer is, that in those sciences which have made most progress, possibility, probability, and moral certainty have always been admitted as sufficient interim grounds for the prosecution of such inquiries as have finally, though at first leading to inexact conclusions, opened the way to the attainment of the most important truths; and that psychology, by the over-rigidness of its rules of investigation, has plainly fallen behind sciences, in advance of which it at one time stood in its progress.

scholarly journals II.—The Circulation of Salt and Geological Time

1901 ◽  
Vol 8 (8) ◽  
pp. 344-350
Author(s):  
J. Joly
Keyword(s):  
Sodium Chloride ◽  
Geological Time ◽  
Considerable Error ◽  
The Earth ◽  
Geological Age ◽  
Considerable Length ◽  
Definition Of ◽  
Made In ◽  
Geological Magazine

From time to time I have received from correspondents suggestions that the method of determining the geological age of the Earth by the rate of solvent denudation of sodium might be open to considerable error if the allowance made in my paper (Trans. R.D.S., ser. ii, vol. vii), for sodium chloride carried from the sea by winds and washed from the atmosphere by rain, was seriously at fault. These suggestions arise from incomplete study of the quantities involved. Had more space been given in my paper to this question, the hasty criticisms I have had to contend with, doubtless, would be less often advanced. The whole matter is capable of the simplest arithmetical statement, and the limit of error arising from this source easily defined. Recently one gentleman has written at considerable length on the matter in the pages of the Chemical News. I have replied to Mr. Ackroyd in that journal. But the definition of the limit of error referred to, and the consideration of some other points raised in the discussion, are more in place in a geological than in a chemical journal. I would therefore seek for space in the Geological Magazine wherein to repeat in part what I have said in the Chemical News, adding some matters more especially suited to geological readers.

scholarly journals ‘The Earth but a Satellite of the Sun’

1958 ◽  
Vol 11 (4) ◽  
pp. 409-410
Author(s):  
R. d'E. Atkinson ◽  
E. G. R. Taylor
Keyword(s):  
High Rank ◽  
The Sun ◽  
Experimental Proof ◽  
Main Thesis ◽  
The Earth ◽  
The Absolute ◽  
Made In

I Have read Professor Taylor's article with great enjoyment. There are, however, two matters of fact on which, though they do not affect her main thesis, the record should, I think, be set right, (a) The earliest experimental proof of the Earth's revolution round the Sun was neither Bessel's detection of the relative parallax of 61 Cygni, nor Henderson's determination of the absolute parallax of α Centauri (both of which occurred in 1838) but Bradley's very beautiful discovery of aberration in 1725, together with his slightly later explanation. The discovery was made in a deliberate search for parallaxes; and although that particular proof of the Earth's movement was not then achieved, it was at once recognized that aberration provided a different and equally cogent one. Bradley's work was indeed resisted, in some quarters and for a short while, for reasons which Professor Taylor will by no means find unexpected. His later discovery of one term in the nutation was also a discovery of something which would have embarrassed Ptolemy, and delighted Newton; it certainly tended to confirm the picture, if that were needed. By the time parallaxes actually were discovered, though there still were individuals, sometimes of high rank, whose prejudices were stronger than their intellects, the only point of genuine doubt was the question how far away the nearest stars really were.

A New Approach for the Geotechnical Zoning of the Rights of Way

2019 ◽  
Author(s):  
Julian Chaves Agudelo ◽  
Jaime Aristizabal Ceballos ◽  
Carlos Motta Tierradentro ◽  
Juan Alvarado Franco
Keyword(s):  
Land Use ◽  
Natural Hazards ◽  
National Scale ◽  
Technical Literature ◽  
New Approach ◽  
Technological Tools ◽  
Definition Of ◽  
Made In

Abstract Usually, the definition of geotechnically homogeneous zones is established through the analysis of information on a regional (and even national) scale of those characteristics that define the topographic, geological, climatic, and land use conditions by categorizing them and applying algorithms of interaction between these variables. However, in technical literature and in technical reports of state entities that manage natural hazards, new advances are being made in the determination of other aspects or variables that detail the condition of geotechnical susceptibility; at the same time, nowadays there are technological tools for the massive analysis of information and its spatialization. This article presents a new approach to the definition of geotechnically homogeneous zones using these technological tools. A comparison is made against the conventional definition.

On the position of the north magnetic pole

1837 ◽  
Vol 3 ◽  
pp. 254-254 ◽  
Keyword(s):  
Vertical Position ◽  
Magnetic Pole ◽  
The North ◽  
The Earth ◽  
North Magnetic Pole ◽  
To Come ◽  
Magnetic Poles ◽  
Magnetic Needle ◽  
Made In

The author remarks that the discordances in former observations made with a view to determine the position of the magnetic pole, have arisen partly from the irregularity of distribution in the earth of the substances which exert magnetic power, and partly from the great distances from the magnetic poles at which these observations have been made. The latter cause of uncertainty has been now, in a great measure, removed, by the numerous and accurate observations made during the late arctic expeditions. The object of the present paper is to put on record those which were made in the last voyage of Captain Ross, in which a spot was reached corresponding to the true north magnetic pole on the surface of the earth. The nature of the instruments, and the difficulties encountered in their practical employment, under the circumstances of the expedition, are fully stated. Having arrived, on the 1st of June, at north latitude 70° 5' 17", and west longitude 96° 45' 48", the horizontal magnetic needle exhibited no determinate directive tendency, and the dipping needle was within a minute of the vertical position, a quantity which may be supposed to come within the limits of the errors of observation; hence the author concludes that this spot may be considered as the true magnetic pole, or as a very near approximation to it, as far, at least, as could be ascertained with the limited means of determination of which he was then in possession. A table of the observations, including those on the intensity of the magnetic force at various stations, is subjoined.

scholarly journals The Determination of Love's Number K from Tidal Variations of Rotation of a Compressible Earth

1972 ◽  
Vol 48 ◽  
pp. 234-234
Author(s):  
N. N. Pariisky ◽  
B. P. Pertsev
Keyword(s):  
Angular Speed ◽  
Long Period ◽  
The Past ◽  
The Earth ◽  
Bodily Tides ◽  
Tidal Variations ◽  
Near Future ◽  
Made In ◽  
Periodic Changes

Long period bodily tides (fortnightly and monthly) cause periodic changes of the Earth's moment of inertia and consequently the angular speed of its rotation.During the past few years the use of atomic clocks has made it possible to determine the amplitudes of these periodic variations of the Earth's rotation with high accuracy and has made this method very effective in determining Love's number K, which is dependent on the internal structure of the Earth (the most detailed studies were made in the U.S.S.R. – Pilnik and Gubanov).But up to now it was taken (Anderson, Woolard, Melchior, and others), that the formulae of Jeffreys and Woolard, which are used in this method, are valid only for incompressible Earth models.It is shown in this paper that the formulae are valid for the case of an actual compressible heterogeneous Earth. Thus, the method receives a real practical value. The use of lasers and radio methods in the near future will make this method even more effective.The full text of the paper will be published in the magazine Physics of the Earth in No. 3, 1972.

Two Kinds of Soft Facts

2018 ◽  
Vol 95 (1) ◽  
pp. 34-53 ◽  
Author(s):  
Ciro De Florio ◽  
Aldo Frigerio
Keyword(s):  
Point Of View ◽  
The Other ◽  
Future Contingents ◽  
The Past ◽  
Other Hand ◽  
Divine Knowledge ◽  
Soft Fact ◽  
The One ◽  
Definition Of

The concept of soft facts is crucial for the Ockhamistic analysis of the divine knowledge of future contingents; moreover, this notion is important in itself because it concerns the structure of the facts that depend—in some sense—on other future facts. However, the debate on soft facts is often flawed by the unaware use of two different notions of soft facts. The facts of the first kind are supervenient on temporal facts: By bringing about a temporal fact, the agent can bring about these facts. However, on the one hand, the determination of the existence of these facts does not affect the past; on the other hand, assimilating divine knowledge into this kind of facts does not help the Ockhamist. The authors will argue that, to vindicate Ockhamism, another definition of “soft fact” is necessary, which turns out to be much more demanding from a metaphysical point of view.

scholarly journals A fast method for the determination of 210Pb by LSC in liquid samples

2019 ◽  
Vol 7 (3) ◽  
Author(s):  
Camilla Da Silva Sampaio Lucena ◽  
Wanderson De Oliveira Sousa ◽  
Bernardo Maranhão Dantas
Keyword(s):  
Sequential Analysis ◽  
Liquid Scintillation ◽  
Point Of View ◽  
Fast Method ◽  
Secular Equilibrium ◽  
Naturally Occurring ◽  
The Earth ◽  
Naturally Occurring Radionuclides ◽  
Background Exposure

210Pb is a naturally occurring radionuclide, widely distributed on the earth´s surface and can be incorporated by humans through food chain or directly by ingestion or inhalation in situations of occupational or accidental exposures. It concentrates in bone tissue when absorbed, presenting a rather long biological half-life and producing one of the highest skeletal doses among naturally occurring radionuclides under conditions of average background exposure. Because of its metabolic and dosimetric characteristics, 210Pb becomes an important isotope from the radiation protection point of view. This work presents the development of a methodology for the determination of 210Pb by liquid scintillation. It is the modification of a sequential analysis for naturally occurring radionuclides in environmental samples without the need of waiting for secular equilibrium to be achieved with 210Bi. The methodology has shown to be precise, stable and provides consistent results when evaluated according to the criteria established in the Brazilian Intercomparison Program promoted by the IRD.

scholarly journals TURNOVER OF LAND PLOTS AS OBJECTS OF CIVIL RIGHTS

2021 ◽  
pp. 30-35
Author(s):  
O.A. Rozhkova ◽  
S.V. Voronina
Keyword(s):  
Civil Rights ◽  
Single Point ◽  
Civil Code ◽  
Point Of View ◽  
Scientific Discussion ◽  
The Subject ◽  
Federal Laws ◽  
Definition Of ◽  
Land Code

The definition of the concept of turnover is absent in the provisions of the civil code and other normativelegal acts. The scientific discussion is based on the content of the concepts of turnover, civil turnover and legalregime, and their relationship. In civil turnover, most of the objects of civil rights are freely used, which ispredetermined by their inherent legal property of turnover. The civil code defines turnover as the ability ofan object of civil rights to be freely alienated and transferred from one person to another. Turnover is oftenidentified with the ability of an object to be an object of civil rights in General. The doctrine also does nothave a single point of view regarding the understanding of turnover and its relationship to the legal regime.Land plots are objects of civil turnover, participate in land legal relations as objects of civil turnover.The turnover of land plots is carried out to the extent that it is allowed by the legislation. The question ofthe correlation between land and civil legislation in regulating the turnover of land plots is relevant. Thecivil code refers the determination of the degree of turnover of land plots to the subject of regulation of landlegislation. In accordance with the land code, the turnover of land plots is carried out in accordance withcivil legislation and the code, while the content of restrictions on the turnover of land plots is establishedby the land code and Federal laws.

ECONOMIC APPROACH TO LAW

2021 ◽  
Vol 4 (3) ◽  
pp. 13-21
Author(s):  
Алексей Викторович Зырянов ◽  
Александр Васильевич Петров
Keyword(s):  
Economic Efficiency ◽  
Legal System ◽  
Point Of View ◽  
Economic Research ◽  
Allocation Of Resources ◽  
Self Sufficiency ◽  
Legislative Activity ◽  
Definition Of ◽  
Interim Measures

Recent legal and economic research has shown that the legal system, its doctrines, procedures and institutions, are influenced by concerns about economic efficiency. From the point of view of foreign researchers, the rules of property rights assumption and the determination of liability, the procedure for the settlement of legal disputes, limitations, methods of calculating damages and the definition of interim measures, as well as other important elements of the legal system are best understood as attempts to promote the effective allocation of resources. Contrary to the idea of normative self-sufficiency, it can be observed that if the legal system were systematically and effectively developed to maximize economic efficiency, the level of strategic planning of legislative activity was much higher.

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