Microsoft Word - Patrut Vasile engl.


 
 

Contributions to Positioning Accounting in Relation to Scientific 
Research  

 
Vasile Pătruţ, Prof., Dr., “Vasile Alecsandri” University of Bacău 

 
 
 

Abstract 
 
The paper approaches some epistemological and methodological aspects of scientific research 
in accounting, such as: the distinction between accounting research and scientific research in 
accounting; the products, dynamics and mechanism of scientific creation; scientific research as 
a fundamental premise of scientific creation; the challenges and conditions of scientific 
creation; the double standing of accounting, as object and result of the research, in relation to 
scientific research. 
 
Key words 
 
Accounting research, knowledge, research, scientific research, discovery, invention, 
innovation. 
 
 
Sprung from the need to efficiently know and manage the economic values separated 
in a patrimonial way, accounting asserted itself, within the general process of 
knowledge, as a double aspect: as practical activity and as scientific theory. Its long 
history traces an evolution as going “predominantly from practice to theory, where 
practical experience has been the one anticipating and shaping the theory and method 
of accounting”1, that is, the science of accounting. 
In both of the meanings of the term, accounting has, in our minds, the same object and 
method and what differs is the level where we stand which is the action level in the 
first case, respectively the level of the mind, of thought, scientific reflection in the 
second case. Distinctions can also be made concerning the object and result of each of 
the two structures. Thus, whereas in the case of accounting as practical activity the 
object is represented by the movements of concrete values of a clearly defined 
patrimonial entity and the product is constituted by financial-accounting data 
regarding that entity, therefore particular statements relative to particular cases, with 
no scientific relevance, in the case of accounting as scientific theory the object is 
constituted by the movements of values occurring generally within the patrimony of 
any entity and the product of the research is constituted by the theoretical statements 
(which are likely to represent scientific knowledge). 
 
Accounting research versus scientific research in accounting  
 
Within accounting as a practical activity based on the theoretical and methodological 
principles elaborated by its scientific theory field, practitioners carry out what is 
called accounting research. By using the devices of the accounting method, it 
approaches exhaustively the (economic, legal, administrative or natural) facts which 
generate movements of values influencing thus the patrimony of a determined entity 
                                                 
1 Călin, O., Ristea. M. (2002), Bazele contabilităţii, Editura GENICOD, p. 5. 

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(organization) and which it seizes, quantifies, eventually recording the respective 
data; then, these data are processed leading thus to accounting data in the form of 
some specific indicators and their communication by means of financial-accounting 
reports with a view to using them. 
Scientific research in accounting can be achieved separately from accounting research 
and it selectively approaches facts concerning the patrimony, in general, of different 
entities (organizations) and the way in which these facts are treated in the accounting 
practice with a view to elaborating, by means of specific techniques, general 
theoretical statements which make up the scientific theory of accounting. The 
techniques used in this case are related to the methodology of scientific research, 
unlike the techniques used in accounting research which are related to the accounting 
method.  
The things mentioned so far lead to the conclusion that accounting research and 
scientific research in accounting are distinguished by object and method, as well as by 
purpose. 
 
Scientific research – a basic premise of scientific creation 
 
The motive of the scientific research is generally constituted by knowledge and the 
need to expand it. As far as knowledge is concerned, it is a “reflex of human curiosity, 
but also the imperative for survival”2. Enlarging upon this idea, the authors of the 
respective paper – rightfully – claim that “Man would have probably never become an 
animal aware of its own value had it not been driven from the very beginning towards 
knowledge. The fact that the initiation was realized at the urging of an inner force is 
no longer important. Similalrly, there is no particular significance for research in the 
fact that in the beginning knowledge was achieved towards itself or towards the 
exterior world of man himself. We may be right in admitting as being more plausible 
the hypothesis of the beginning of knowing the exterior world, also the one where the 
most powerful threats might have come from, but also the sources and resources for 
survival.” 
Knowledge is the sensory-logical reflection characteristic of a human being. Man’s 
knowledge activity represents, according to the Dictionary of Philosophy3, a unity 
dialectical process of sensory and rational, empirical and theoretical knowledge.  
Empirical knowledge is the reflection of the object into the process of unmediated (or 
mediated by tools and devices) interaction between the subject and object, its specific 
methods being observation, description etc.. At this level the data which establish the 
object’s external manifestations are collected.  
Theoretical knowledge is a process of deepening knowledge through thought, getting 
to the essence, seizing internal connections, causes and laws which govern the 
structure of the object. It occurs on the basis of processing the data obtained by 
empirical knowledge through methods such as analysis and synthesis, induction and 
deduction etc. 
The information acquired in the process of knowledge is structured and fixed in 
specific reflection forms: sensations, perceptions and representations characteristic of 
sensory knowledge, notions, judgements, arguments (in logical terms), or concepts, 
ideas, theses, theories, theoretical systems and other theoretical statements (in 
epistemological terms) characteristic of rational knowledge. 
Concerning human knowledge, its philosophical theory, its gnoseology distinguishes 
between common knowledge and scientific knowledge. Thus, common knowledge is 
                                                 
2 Zaiţ, D., Spalanzani, A. (2006), Cercetarea în economie şi management; repere 
epistemologice şi metodologice, Editura Economică, Bucureşti, p. 17. 
3  * * * (1978) Dicţionar de filozofie, Editura Politică, Bucureşti.  

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identified as the normal, spontaneous, random, generally human manner of reflecting 
reality that “allows us to use our natural senses in order to identify the explicit 
dimensions of the world (the apparent reality)”4. On the contrary, scientific 
knowledge goes beyond the reality perceivable at the limit of the natural senses. 
Scientific knowledge is systematic, organized (controlled), based on rigor (that is, 
principles, rules, procedures, arguments etc.) and is specialized in different domains.  
Other differences concerning the two types of knowledge concern the type of 
knowledge results presentation and the recipients. Within the frame of common 
knowledge, it contributes unconsciously, unwillingly and spontaneously to the 
increase of the knowledge patrimony with experimental knowledge which is naturally 
transferred between generations. On the other hand, the results of scientific 
knowledge materialized into theoretical and practical-applicative generalizations are 
externalized, that is, formalized and stored in an external memory by implementation 
into different technical supports and thus making them transferable among 
generations, regions, distinct structures etc. Usually, the results of scientific 
knowledge are delivered at a price to those who are to benefit from their exploitation.  
Depending on how real facts are involved in the research, the authors of the cited 
paper distinguish among three levels of scientific knowledge: the empirical level, the 
theoretical level and the application level.  
The empirical level seizes the facts, events, emotions, manifestations which represent 
the reality of the domain under study and identifies the basic and elementary data in 
the form of empirical data. Since these data are the result of a professional finding 
(belonging to a specialist in the field) and are subjected to recording in a manner and 
with tools characteristic of the field, the data or information thus obtained characterize 
what we call “scientific facts”. Therefore, real facts become scientific once they have 
entered a specialized action of recording and processing where specialized conceptual 
and methodological tools are used. 
So, through the intervention of the specialized conscious (the specialist), which 
operates with a specialized, formed, acquired, learned etc. language, there occur 
transformations as the ones below: 
 
 
 
 
 
 
 
 
 
 
 

 
 

Figure 1. The facts – data relationship 
 

The theoretical level establishes the general and generalizable components of the 
field, that is, notions (concepts), statements, laws, theses and hypotheses. “In the case 
of the disciplines in the pragmatic fields of efficient action, where accounting is also 

                                                 
4 Zaiţ, D., Spalanzani, A. (2006), Cercetarea în economie şi management; repere 
epistemologice şi metodologice, Editura Economică, Bucureşti, p. 17. 

Real facts 

Scientific facts 
 

Scientific Data 
(Information) 

Empirical data 

become become 

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included, at this level (the theoretical one) there are principles and general rules of 
action for enterprise, sector, activity field and/or time span”5. 
The application level, which is located in the area of the occurrence of real facts, 
yields solutions and recommendations, techniques and procedures etc. through the 
application of some corresponding theory. This level establishes application rules and 
norms, principles and methods, as well as the related know-how elements. “It is the 
efficient action component from scientific knowledge, the one which teaches one how 
to do what one knows to do. It is about the descriptions and prescriptions needed to 
effectively carry out the practical activity”6. The scientific research in accounting as 
an applicative science par excellence aims particularly at its application level. 
 

Table 1. The levels of scientific research 
 

  
Location area 

Characteristic elements 
operating at this level 

 
 
Empirical level 

The interface between 
perceptions refined by 
previously acquired 
specialized knowledge and 
the reality of the field as 
subject of knowledge in 
itself 

- real facts 
- empirical data 
- scientific data 
(information) 
- scientific facts 

 
 
 
Theoretical level 

General and generalizable 
elements of the field (the 
interface between the 
rational conscious and the 
factual reality) 

- notions (concepts 
- theoretical statements 
                - ideas 
                - hypotheses 
                - theses 
- scientific law 
- theory 

 
 
Application level 

The area of real facts 
occurrence 

- application rules 
- application norms 
- principles 
- methods 
- know-how elements 

Scientific creation in the form of discoveries, inventions or, on the edge, innovations, 
contributes to the expansion of human knowledge which, itself a scientific creation as 
well, may constitute the purpose of scientific research. 
Discovery means achieving new knowledge concerning the objective reality, entering 
so far unexplored areas as well as understanding certain facts which – although 
already reported – had not overcome the stage of the gross detail yet7. As a discoverer 
of new truths or as creator of new theories, the human individual or the knowing 
agent extends the area of human knowledge or suggests the restructuring of the 
previously known knowledge in the light of new principles. In terms of their 
predictability, discoveries fall into two categories, expected or unexpected. 
Expected discoveries are the ones assiduously searched for, being simultaneously the 
concern of several researchers. Discoveries of this type belong to development and 

                                                 
5 Zaiţ, D., Spalanzani, A. (2006), Cercetarea în economie şi management; repere 
epistemologice şi metodologice, Editura Economică, Bucureşti, p. 23. 
6 Zaiţ, D., Spalanzani, A. (2006), Cercetarea în economie şi management; repere 
epistemologice şi metodologice, Editura Economică, Bucureşti, p. 26. 
7 Dumitraşcu, D. (1974), Trepte spre ştiinţă, Editura Dacia, Cluj, p. 9. 

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application researches. In this case, scientific research represents the purpose / 
objective and the result of what is called scientific research. This research looks into 
something about which there is some minimal idea, about which one may formulate a 
hypothesis based on known or suspected facts or events, something which can be 
logically or emotionally deduced but which needs testing, validation or collecting 
evidence sufficient for eliminating the risk of counterfeit. 
Spontaneous findings, mainly belonging to fundamental researches, open horizons 
that could not have been suspected before, as a result of chance. In this case, 
discovery being the role of hazard, researching means looking for something nobody 
knows anything. 
The invention consists in finding a new technical procedure or in building an 
instrument which, in turn, may support the progress of knowledge and the mastery of 
nature by man. Through knowledge we explore not only reality, as in the case of 
discoveries, but also the horizon of possible objects, as in the case of inventions. 
Both aspects of creation imply novelty, priority, originality, a way of thinking and of 
acting which occurs for the first time in the history of science. What distinguishes 
them is the fact that discovery concerns real facts, already existing but unknown, 
whereas invention represents constructions of man previously inexistent. The object 
of discovery is nature or society and that of invention is human activity. These two 
are indissolubly connected because the invention – of some device, technique or 
procedure – closely follows or precedes the discovery of a fact, an objective law. 
Science advances through discovery, technique through invention, and both of them 
interact. The efficiency of the discovery is measured in ideas while that of the 
invention in work, action techniques, but both of them are indispensable to progress, 
to innovation. Innovation understood, of course, as a change applied within a filed, a 
system where, through the introduction of novelty or through the application of a 
discovery, an invention or a simple innovation is achieved. Innovation is, according to 
the DEX, novelty, change, transformation, namely the solving of some technical or 
work organization problem with a view to improving work (productivity), technical 
improvement or streamlining of the solutions applied. Therefore, discovery, invention 
and novelty lead to innovation. 
We shall further present several aspects concerning the dynamics and mechanism of 
scientific creation. 
From the scientists’ analyses of their own creations, of the way in which they made a 
discovery, there often resulted “hypertrophies of some factor which participate 
harmoniously to the act of creation. Thus, the unilateralization of the intuitive 
moment has led to identifying creation with adventure, with hazard, with chance. 
Conversely, the exaggeration of the importance of methodical conscious activity 
systematically carried out according to an organized plan has led to the creation of a 
false image of scientific creation as a rational and fully controllable process, 
fundamentally opposed to artistic creation. In fact, says the author cited above, it is a 
similar process in both circumstances, with different modes of presentation. This is 
always followed, in the case of science, by a conscious checking and analysis of its 
products”8. 
There are two premises which allow the correlation of discovery, creation with the 
subjective side: creativity understood as a complex of skills and as a feature of the 
spirit, and orienting the creating interest towards creative activity, based on some 
motivation. The first one represents the potential of creation. The second one fulfils 
the triggering function for investigation. This is why it marks the outset of elaborating 
the discovery and supports the process during the subsequent activity. 

                                                 
8 Dumitraşcu, D. (1974), Trepte spre ştiinţă, Editura Dacia, Cluj, p. 13. 

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In the dynamics of scientific research, A. F. Osborn, cited by D. Dumitraşcu9, 
distinguishes the following stages: 1) orientation: raising an issue; 2) preparation: 
accumulating specific data; 3) analysis: classifying available data; 4) ideation: issuing 
alternative ideas; 5) incubation: the stop needed to trigger illumination (intuition); 6) 
synthesis: assembling found data; 7) evaluation: criticizing the ideas obtained. 
The solution to a problem may be obtained based on a systematic thinking, as well as 
through intuition, both of these implying, however, stages of accumulation, 
incubation and intense thinking.  
- Creation needs a prior preparatory period that begins with posing the problem and 
therefore, with establishing the field of investigation. The starting point cannot be 
absolutized because we are neither exclusively driven by Bacon’s assertion that 
“science begins with observation”, nor by that of K. Popper according to whom 
“science begins with the problem”. The preparation consists in taking possession of 
the factual material from the explored area and the ceaseless concern towards the 
problem. “Constantly thinking about the respective object, knowing that one goes to 
bed with one idea in mind and wakes up still with it” are the words by which I. P. 
Pavlov revealed his experience. Thus, constant research activity appears to be a first 
act of creation in science. 
- The central moment of creation is the hatching of the original idea. In order for this 
to occur, it requires a particular tensioning of the intellect, a “forma mentis” 
favourable to the outbreak. This is achieved due to: 1) numerous favourable 
influences: associations of ideas, analogies or contrasts suggested by certain words or 
images, sometimes accidentally perceived; 2) focusing attention or simplifying 
thought by way of graphic representations, intuitive drawings; 3) systematizing the 
material in successive stages; 4) noticing contradictions and discrepancies; 5) trying 
and logicization; 6) discussing the data of the problem; 7) physical states of the 
cortical activity, those moments of transition between sleep and wake, or of dreaming 
with no defined objective. 
- The last stage of creation is verifying the original idea. This testing is done, first of 
all, at the level of the argument, applying the first censorship which separates the 
feasible from the impossible, the value from absurdity. Then confronting the new idea 
with the observation and experiment material brings about another, more decisive 
verification. Finally, its practical application and use to the benefit of mankind 
constitutes the last point of control which certifies and assesses the discovery. The 
creative cycle ends inducing nevertheless, by coming back to the solid ground of 
practice, new trajectories in knowledge. 
Creative dynamics is not restricted to the three schematic moments, presented above. 
The transition towards discovery is done, usually, by successive movements, 
alternative shifts from hypothetical truths to objective truths. 
Based on the things we have just analysed, it results that scientific creation is 
influenced by the following factors: 
- imagination (fantasy) – the central prerequisite of originality, with a significant 
weight in inventing hypotheses; 
- intuition (unconscious reason); 
- reasoning (rational thinking); 
- chance (hazard), as a factor which can act either positively or negatively upon 
scientific creation; 
- systematic research, as a deliberate activity of searching for something, the answer 
to a question respectively, the solution to a problem. 
By synthesizing, the mechanism of scientific creation can be represented as follows: 

                                                 
9 Ibidem, p. 15.  

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Figure 2. The dynamics of scientific creation 

Having the QUESTION / PROBLEM 
     (identified through the proponent’s own experience) 

Based on some rich IMAGINATION  
(that kaleidoscopic fantasy which ensures the diversity 

and novelty of viewpoints) 

One INFERS 
(invents by way of “unconscious reason”) 

HYPOTHESIS / ASSUMPTION: 
(an assumption, temporary explanation, based on some 
known facts, connections and laws concerning certain 
relations between phenomena, the cause or the internal 

mechanism which produce them) 

Is subjected to verification 
- through logical demonstration, rational thinking 

and/or  
- practical application, experiment  

Accidentally, BY 
CHANCE, 

as a result of 
HAZARD 

No 

Within 
SYSTEMATIC 

RESEARCH as a 
deliberate searching 

activity  

Is the 
hypothesis 
confirmed?

Yes 

 

False  
hypothesis 

 
Thesis: answer/solution 
(hypothesis proven to be 
true, a form of scientific 

theory) 

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Taken together, the largest number of discoveries has resulted from a deliberate, 
systematic activity and not from intuitions or accidental observations. They have 
developed as a result of a step-by-step activity handed down from generation to 
generation. Creation cannot be achieved, neither in science nor in art, without a 
constant concern about a certain problem. If it is true that searching for means 
finding, then we will have also to agree with the corollary “researching means 
discovering”. Only by being actively involved in a field of the research activity, 
without counting on hazard, can one have the possibility of being served by it, at a 
certain moment. 
Therefore, scientific creation implies searching for the answer to a question, it 
requires scientific research. This relation between scientific research and scientific 
creation results from the very dynamics of the latter. Indeed, this dynamics implies: 
(1) seizing some question that we would like to have or obtain an answer to, (2) 
suggesting an answer as a necessary assumption, the answer becoming thus a 
hypothesis, the hypothesis being the starting point of what we call scientific research, 
(3) verifying whether the hypothesis is confirmed or false, that is, scientific research. 
“Scientific research is the systematic, structured and coherent search, based on 
specific and specialized systems of encoding and on a methodology designed to find 
what becomes novelty, innovation, invention or discovery. It, the scientific research, 
aims at finding  out something (1) about whose existence nothing is known or (2) 
about which facts or events connected relationally, empirically or logically are known 
but for which there is not enough evidence, nor sufficient arguments, demonstrations, 
logical connections or irrational deductions”10.  
In the case in which something about which nothing is known is being searched for, 
where it is rather, on the edge, the role of chance, of some hazard which suddenly 
confronts the factual or relational unknown with the character fated to make the 
discovery, in this case we are rather dealing with a specious research but which is 
regarded by many to be the “real” one11.  
In the theory of knowledge and in epistemology, scientific research is regarded as a 
logical process of looking for explanations by systematically formulating and testing 
statements and systems of statements and by building, rebuilding, strengthening or 
developing the theory on the basis of and within which it is carried out. Scientific 
research, for empirical studies where the continuous relating to facts, events or 
relations which are part of the natural reality is compulsory, formulates hypotheses, 
builds theoretical events and confronts these systems to natural reality, experience, by 
way of observation and experiment. 
Generally, what is characteristic of scientific research is the idea of theorization and 
implicitly of theoretical generalization, a notional reflection with the help of 
abstractions, of objective reality. This does not mean that scientific research should 
not include development research or application research where the first level does 
not belong to elaborating concepts, theoretical statements and theories, but rules and 
norms of application, methods, know-how elements. 
Any of the sciences uses, in achieving its objective, different methods, their ensemble 
which is based on the system of the most general laws and principles of the respective 
science constituting what is called the methodology of that science. With this 
meaning, the word method is also sometimes used. The same methodology concept is 
also used with another meaning, that is, to designate the science or theory of methods. 
“There is a particular methodology of the various sciences which represents the way 

                                                 
10 Preluat şi adaptat din Zaiţ, D., Spalanzani, A. (2006), Cercetarea în economie şi 
management; repere epistemologice şi metodologice, Editura Economică, Bucureşti, p. 79. 
11 Preluat şi adaptat din Zaiţ, D., Spalanzani, A. (2006), Cercetarea în economie şi 
management; repere epistemologice şi metodologice, Editura Economică, Bucureşti, p. 79. 

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of operating with the methods characteristic of each science and with those borrowed 
from related or interfering disciplines and a general methodology of science, of 
knowledge, the philosophical part which contains the methods applicable in all 
domains or, in any case, which meet with a high degree of generality”. 
 
The prerequisites and conditions of scientific creation 
 
Developing further the idea of scientific discovery as the main form of scientific 
creation, we shall see which are its prerequisites and conditions. 
- In order to state a law or to describe a fact scientifically so that it may have the value 
of a discovery, first of all it needs to reflect reality exactly. A discovery that is not 
true, is not … a discovery12. This condition eliminates error and forgery from science. 
In elaborating the discovery, all the rules of research must be obeyed, ensuring 
objectivity to the content transmitted and fairness to the demonstrative device used. 
Its value is even greater as it gets closer and closer to the objective truth. 
- By definition, discovery consists in: a significant gnoseologic moment, knowing the 
signification of the new fact. It cannot be confused with the simple description of 
facts, it is not restricted to this perceptive aspect. Claude Bernard (in Caiet de note. 
Editura Ştiinţifică, Bucureşti, 1969) pointed out that “discovery is the new idea which 
arises in connection with a found fact”. Only recorded and left unexploited, the 
original observation cannot have the value of a discovery. “The gross fact does not 
teach us anything by itself. This does not mean that science denies all of its values but 
that it files it and keeps it as a premise of future discoveries”13. 
- Another prerequisite for discovery is generalizability, according to the specific 
nature of science which operates with general laws and principles. The concrete fact 
is nothing than the impulse of scientific knowledge, it does not achieve science itself. 
Therefore, discovery implies a leap from the mere “to see” to the priceless “to 
understand”14. 
- Recognition of a discovery is conditioned by its diffusibility. A discovery known 
only by its creator is inexistent to science. Each new contribution gains value only by 
being increasingly spread around, by being taken over and developed. However, 
besides the originality of the idea, multiple other factors characteristic of the 
informational cycle are involved such as the broadcasting sphere of the language in 
which the discovery is published, the interrelations among countries and scientists etc. 
Moreover, “it is not enough to make a discovery or briefly describe it, but the new 
data need to be processed up to a point where others will accept the idea and continue 
the work” (SELYE, M. – De la vis la descoperire. Editura Medicală, Bucureşti, 
1968). To that effect, D. Dumitraşcu mentions that: “Darwin himself was not the first 
one who noticed the law of the evolution of species, Pasteur himself did not state the 
microbial theory for the first time. But they are credited to have developed the 
concepts to which their names have been attached, substantiating them scientifically 
and bringing them to the field of practical application”15. 
- Applicability is another criterion of value for discovery. The correctness of this 
criterion is undeniable, but not knowing it we cannot overlook the historically 
conditioned nature that the use of discoveries often implies. Anyway, a discovery 
should, sooner or later, reflect positively upon man. The moment discoveries are 
made, the contribution they can bring may remain hidden, as was, for example, the 
                                                 
12 Zaiţ, D., Spalanzani, A. (2006), Cercetarea în economie şi management; repere 
epistemologice şi metodologice, Editura Economică, Bucureşti, p. 10. 
13 Dumitraşcu, D. (1974), Trepte spre ştiinţă, Editura Dacia, Cluj, p. 12. 
14 Dumitraşcu, D. (1974), Trepte spre ştiinţă, Editura Dacia, Cluj, p. 12. 
15 Dumitraşcu, D. (1974), Trepte spre ştiinţă, Editura Dacia, Cluj, pp. 12-13. 

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situation with the discovery of nuclear fusion, at a time when the concept of nuclear 
power had not yet crystallized. 
 
 
 
Accounting – both object and product of scientific research 
 
In terms of scientific research, accounting is, we believe, both its object and product. 
As practical activity and everything that this implies, accounting is an object of 
scientific research and, as scientific theory, accounting is a research product. 
As object of scientific research, there may be considered such aspects of accounting 
practice as the ones covered by the following questions:  
- what is there subjected to accounting observation and processing?, respectively, the 
movements of values which define the object of accounting and the related structures: 
assets, equity, expenditure, revenue, costs, results etc.; 
- where is accounting organized and carried out?, respectively, the accounting entities; 
- what is accounting organized and carried out for?, respectively, the aim and 
objectives of accounting, producing and providing quality data, appropriate to the 
decision-making process, as well as the degree of using these data; 
- for whom?, respectively, the users of accounting data and the satisfaction degree of 
their informational needs; 
- who?, respectively, the processors of accounting information, the responsibilities 
and the professional staff appropriate to fulfill the accounting function of the 
organization; 
- how?, respectively, the actual methodology and technique for fulfilling effectively 
the accounting function of the entity, namely: methodological and organizational 
principles, accounting procedures (documentation, evaluation, accounts system, 
accounts balance, computation, inventory, balance sheets and all the other synthesis 
documents and financial reports, economic and financial analysis etc.), accounting 
norms and standards etc.; 
- with what?, respectively, the material resources required by the accounting activity, 
including characteristic equipment and disposables, proper space etc.; 
- how well was the entity’s accounting performed?, respectively, the way in which 
information was certified through financial audit etc. 
Like any other science, accounting, too, achieves a dialectical unity by integrating two 
essential components: theory and scientific method. Theory consists in the 
accumulated knowledge fund transformed into a rationalized form of concepts and 
laws, and the method is the way of operating with these in order to keep on expanding 
knowledge. As a scientific discipline, accounting represents a “system of principles 
which underlie the way of knowing and managing the economic values in a system, 
that is: (1) a system of principles and knowledge which explains the connections and 
relations among the components of the patrimony and, on this base, provides 
information about how the patrimony should be managed efficiently and, (2) at the 
same time, methodologically speaking, it elaborates work techniques for performing 
accounting as an activity, a system of collecting, processing, storing, sending and 
analysing data concerning the financial position and the performance of the 
patrimonial entity. 
In order to constitute itself as a science, it should: 
- have a proper field of research, namely, an area of reality that no other sciences 
research or that is researched from other viewpoints, that is, its own object of 
research; 
- use scientific methods in investigating its object; 

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- reach general truths, a well-rounded theory by way of which it may explain the 
researched reality (nature, society, thought) in a more profound way, or support 
practice. 
As a form of human knowledge, accounting has had, for a long time, the nature of an 
empirical knowledge, in that it directly, explicitly and exclusively counted on 
experience and not on theoretical generalization. With the structuring and 
establishment of acquired knowledge into notions, categories, judgements, arguments, 
hypotheses and theories characteristic of rational knowledge, the transition from 
empirical knowledge to theoretical (systematic) knowledge takes place. Therefore, 
theoretically approached, accounting is nowadays regarded as a scientific discipline 
in the field of social sciences, claimed by two families of sciences: economics and 
management sciences16.  
Insofar as one accepts the idea that, by vocation and besides the fact that it is a social 
practice, accounting is also a science in that it defines its object, its method, it states 
its own scientific theory. 
 
References 
 
1. Dumitraşcu, D. (1974), Trepte spre ştiinţă, Editura Dacia, Cluj 
2. Zaiţ, D., Spalanzani, A. (2006), Cercetarea în economie şi management; repere 
epistemologice şi metodologice, Editura Economică, Bucureşti 
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