Need someone to read this article and then summerize it. Must be at least i page long. need this within the next 3 hours.
Toward a Psychology of Human
Agency
Albert Bandura
Stanford University
ABSTRACT—This article presents an agentic theory of hu-
man development, adaptation, and change. The evolu-
tionary emergence of advanced symbolizing capacity
enabled humans to transcend the dictates of their imme-
diate environment and made them unique in their power to
shape their life circumstances and the courses their lives
take. In this conception, people are contributors to their
life circumstances, not just products of them. Social cog-
nitive theory rejects a duality between human agency and
social structure. People create social systems, and these
systems, in turn, organize and influence people’s lives. This
article discusses the core properties of human agency, the
different forms it takes, its ontological and epistemological
status, its development and role in causal structures, its
growing primacy in the coevolution process, and its influ-
ential exercise at individual and collective levels across
diverse spheres of life and cultural systems.
Conceptions of human nature have changed markedly over time.
In the early theological conceptions, human nature was ordained
by original divine design. Evolutionism transformed the con-
ception to one in which human nature is shaped by environ-
mental pressures acting on random gene mutations and
reproductive recombinations. This nonteleological process is
devoid of deliberate plans or purposes. The symbolic ability to
comprehend, predict, and alter the course of events confers
considerable functional advantages. The evolutionary emer-
gence of language and abstract and deliberative cognitive ca-
pacities provided the neuronal structure for supplanting aimless
environmental selection with cognitive agency. Human fore-
bears evolved into a sentient agentic species. Their advanced
symbolizing capacity enabled humans to transcend the dictates
of their immediate environment and made them unique in their
power to shape their life circumstances and the course of their
lives. Through cognitive self-regulation, humans can create
visualized futures that act on the present; construct, evaluate,
and modify alternative courses of action to secure valued out-
comes; and override environmental influences. In a later sec-
tion, this article discusses the growing ascendancy of human
agency in the coevolution process through the force of social and
technological evolution.
CORE PROPERTIES OF HUMAN AGENCY
Social cognitive theory adopts an agentic perspective toward
human development, adaptation, and change (Bandura, 1986,
2001). To be an agent is to influence intentionally one’s func-
tioning and life circumstances. In this view, personal influence
is part of the causal structure. People are self-organizing, pro-
active, self-regulating, and self-reflecting. They are not simply
onlookers of their behavior. They are contributors to their life
circumstances, not just products of them.
There are four core properties of human agency. One is in-
tentionality. People form intentions that include action plans
and strategies for realizing them. Most human pursuits involve
other participating agents, so there is no absolute agency. In-
dividuals have to accommodate their self-interests if they are to
achieve unity of effort within diversity. Collective endeavors
require commitment to a shared intention and coordination of
interdependent plans of action to realize it (Bratman, 1999).
Effective group performance is guided by collective intention-
ality.
The second property of human agency is forethought, which
involves the temporal extension of agency. Forethought includes
more than future-directed plans. People set themselves goals
and anticipate likely outcomes of prospective actions to guide
and motivate their efforts. A future cannot be a cause of current
behavior because it has no material existence. But through
cognitive representation, visualized futures are brought into the
present as current guides and motivators of behavior. In this
form of anticipatory self-guidance, behavior is governed by
visualized goals and anticipated outcomes, rather than pulled by
an unrealized future state. The ability to bring anticipated out-
comes to bear on current activities promotes purposeful and
foresightful behavior. When projected over a long time course on
Address correspondence to Albert Bandura, Department of Psy-
chology, Stanford University, Jordan Hall, Building 420, Stanford,
CA 94305-2130, e-mail: bandura@psych.stanford.edu.
P E R S P E C T I V E S O N P S Y C H O L O G I C A L S C I E N C E
164 Volume 1—Number 2Copyright r 2006 Association for Psychological Science
matters of value, a forethoughtful perspective provides direc-
tion, coherence, and meaning to one’s
life.
The third agentic property is self-reactiveness. Agents are not
only planners and forethinkers. They are also self-regulators.
Having adopted an intention and an action plan, one cannot
simply sit back and wait for the appropriate performances to
appear, as Searle (2003) noted in his analyses of the explanatory
gap. Agency thus involves not only the deliberative ability to
make choices and action plans, but also the ability to construct
appropriate courses of action and to motivate and regulate their
execution. This multifaceted self-directedness operates through
self-regulatory processes in the explanatory gap to link thought
to action (Bandura, 1991a; Carlson, 2002).
The fourth agentic property is self-reflectiveness. People are
not only agents of action. They are also self-examiners of their
own functioning. Through functional self-awareness, they reflect
on their personal efficacy, the soundness of their thoughts and
actions, and the meaning of their pursuits, and they make cor-
rective adjustments if necessary. The metacognitive capability
to reflect upon oneself and the adequacy of one’s thoughts and
actions is the most distinctly human core property of
agency.
People do not operate as autonomous agents. Nor is their
behavior wholly determined by situational influences. Rather,
human functioning is a product of a reciprocal interplay of in-
trapersonal, behavioral, and environmental determinants
(Bandura, 1986). This triadic interaction includes the exercise
of self-influence as part of the causal structure. It is not a matter
of ‘‘free will,’’ which is a throwback to medieval theology, but, in
acting as an agent, an individual makes causal contributions to
the course of events. The relative magnitude of the personal
contribution to the codetermination varies depending on the
level of agentic personal resources, types of activities, and sit-
uational circumstances. Social cognitive theory rejects a duality
of human agency and a disembodied social structure. Social
systems are the product of human activity, and social systems, in
turn, help to organize, guide, and regulate human affairs.
However, in the dynamic interplay within the societal rule
structures, there is considerable personal variation in the in-
terpretation of, adoption of, enforcement of, circumvention of,
and opposition to societal prescriptions and sanctions (Burns &
Dietz, 1992).
Most human functioning is socially situated. Consequently,
psychological concepts are socially embedded. For example, in
an interpersonal transaction, in which people are each other’s
environments, a given action can be an agentic influence, a
response, or an environmental outcome, depending arbitrarily
on different entry points in the ongoing exchange between the
people involved. In human transactions, one cannot speak of
‘‘environment,’’ ‘‘behavior,’’ and ‘‘outcomes’’ as though they
were fundamentally different events with distinct features in-
herent in them.
A theory of human agency raises the issue of freedom and
determinism. When viewed from a social cognitive perspective,
freedom is conceived not just passively as the absence of con-
straints, but also proactively as the exercise of self-influence in
the service of selected goals and desired outcomes. For example,
people have the freedom to vote, but whether they get them-
selves to vote, and the level and form of their political engage-
ment, depends, in large part, on the self-influence they bring to
bear. In addition to regulating their actions, people live in a
psychic environment largely of their own making. The self-
management of inner life is also part of the agentic process.
Because self-influence is an interacting part of the determining
conditions, human agency is not incompatible with the principle
of regulative causality. Given that individuals are producers as
well as products of their life circumstances, they are partial
authors of the past conditions that developed them, as well as the
future courses their lives take.
The cultivation of agentic capabilities adds concrete sub-
stance to abstract metaphysical discourses about freedom and
determinism. People who develop their competencies, self-
regulatory skills, and enabling beliefs in their efficacy can
generate a wider array of options that expand their freedom of
action, and are more successful in realizing desired futures, than
those with less developed agentic resources (Bandura, 1986,
1997; Meichenbaum, 1984; Schunk & Zimmerman, 1994). The
exercise of freedom involves rights, as well as options and the
means to pursue them. At the societal level, people institute, by
collective action, regulatory sanctions against unauthorized
forms of social control (Bandura, 1986).
MODES OF AGENCY
Social cognitive theory distinguishes among three modes of
agency: individual, proxy, and collective. Everyday functioning
requires an agentic blend of these three forms of agency. In
personal agency exercised individually, people bring their in-
fluence to bear on their own functioning and on environmental
events. In many spheres of functioning, however, people do not
have direct control over conditions that affect their lives. They
exercise socially mediated agency, or proxy agency. They do so
by influencing others who have the resources, knowledge, and
means to act on their behalf to secure the outcomes they desire
(Baltes, 1996; Brandtstädter & Baltes-Gotz, 1990; Ozer, 1995).
People do not live their lives in individual autonomy. Many of
the things they seek are achievable only by working together
through interdependent effort. In the exercise of collective
agency, they pool their knowledge, skills, and resources, and act
in concert to shape their future (Bandura, 2000a). People’s
conjoint belief in their collective capability to achieve given
attainments is a key ingredient of collective agency.
Self-efficacy theory (Bandura, 1997) distinguishes between
the source of judgments of efficacy (i.e., the individual) and the
level of the phenomenon being assessed (i.e., personal efficacy
or group efficacy). There is no disembodied group mind that
believes. Perceived collective efficacy resides in the minds of
Volume 1—Number 2 165
Albert Bandura
group members as the belief they have in common regarding
their group’s capability. In a collectivity, members acting on
their common beliefs contribute to the transactional dynamics
that promote group attainments. The findings of meta-analyses
show that perceived collective efficacy accounts for a good share
of variance in quality of group functioning in diverse social
systems (Gully, Incalcaterra, Joshi, & Beaubien, 2002; Stajkovic
& Lee, 2001).
The collective performance of a social system involves in-
teractive, coordinative, and synergistic dynamics that create
emergent group-level properties not reducible solely to indi-
vidual attributes. Group activities vary in the degree to which
attainments require interdependent effort and collaborative
contributions. Meta-analysis of research on collective efficacy
corroborates that the more extensive the interdependence within
a social system, the higher the predictiveness of the perceived
efficacy of the collectivity (Stajkovic & Lee, 2001).
AGENTIC MANAGEMENT OF FORTUITY
There is much that people do designedly to exercise some
measure of control over their self-development and life cir-
cumstances. But there is a lot of fortuity in the courses lives take.
Indeed, some of the most important determinants of life paths
occur through the most trivial of circumstances. People are often
inaugurated into new life trajectories, marriages, and careers
through fortuitous circumstances (Austin, 1978; Bandura, 1986;
Stagner, 1981). In their insightful volume on The Travel and
Adventures of Serendipity, Merton and Barber (2004) docu-
mented the workings of fortuitous events in life trajectories.
A fortuitous event in social encounters is an unintended
meeting of persons unfamiliar with each other. The physical
sciences acknowledge indeterminacy at the quantum level in
the physical world. Fortuitous events introduce an element of
indeterminacy in the behavioral sciences. The separate paths
that lead up to a fortuitous event have their own determinants,
but they are causally unconnected until their intersection, at
which point the encounter creates a unique confluence of in-
fluences that can alter the course of lives. The intersection,
where the transactions take place, occurs fortuitously rather
than by design (Nagel, 1961). Consider a true example of a
fortuitous event at an address on the psychology of chance en-
counters (Bandura, 1982). An academic publisher entered the
lecture hall as it was rapidly filling up and seized an empty chair
near the entrance. He ended up marrying the woman who hap-
pened to be seated next to him. With only a momentary change in
time of entry, seating constellations would have altered, and this
intersect would not have occurred. A marital partnership was
thus fortuitously formed at a talk devoted to fortuitous deter-
minants of life paths!
A seemingly insignificant fortuitous event can set in motion
constellations of influences that change the course of lives.
These branching processes alter the continuity and linear pro-
gression of life-course trajectories. The profusion of separate
chains of events in everyday life provides myriad opportunities
for such fortuitous intersects. Even if one knew all the deter-
minate conditions for particular individuals, one could not know
in advance the intersection of unconnected events. Fortuitous
intersects introduce probabilistic uncertainty that complicates
long-range predictions of human behavior. Most fortuitous
events leave people untouched, others have some lasting effects,
and still others lead people into new trajectories of life. A sci-
ence of psychology does not have much to say about the
occurrence of fortuitous intersects, except that personal pro-
clivities, the nature of the settings in which a person moves, and
the types of people who populate those settings make some types
of intersects more probable than others. Fortuitous occurrences
may be unforeseeable, but having occurred, they create condi-
tions that enter as contributing factors in causal processes in the
same way as prearranged ones do. Hence, psychology can ad-
vance knowledge on the effects of fortuitous events on life paths.
Several lines of evidence identify personal attributes and the
properties of the environments into which individuals are for-
tuitously inaugurated as predictors of the nature, scope, and
strength of the impact that such encounters are likely to have on
human lives (Bandura, 1982, 1986).
Fortuity does not mean uncontrollability of its effects. People
can bring some influence to bear on the fortuitous character of
life. They can make chance happen by pursuing an active life
that increases the number and type of fortuitous encounters they
will experience (Austin, 1978). Chance favors the inquisitive
and venturesome, who go places, do things, and explore new
activities. People also make chance work for them by cultivating
their interests, enabling beliefs, and competencies (Bandura,
1998). These personal resources enable them to make the most
of opportunities that arise unexpectedly. Pasteur (1854) put it
well when he noted that ‘‘chance favors only the prepared mind’’
(cited in Bartlett, 1992, p. 502). Even that distinguished lay
philosopher Groucho Marx is said to have insightfully observed
that people can influence how they play the hand that fortuity
deals them: ‘‘You have to be in the right place at the right time,
but when it comes, you better have something on the ball.’’ Self-
development gives people a hand in shaping the courses their
lives take. These various proactive activities illustrate the
agentic management even of fortuity.
NONAGENTIC THEORETICAL APPROACHES
In its brief history, psychology has undergone wrenching para-
digm shifts. Behaviorists proposed an input-output model linked
by an intervening but noncausal black box. This line of theo-
rizing was eventually put out of vogue by the advent of computer
technology. Creative thinkers filled the black box with symbolic
representations, rules, and computational operations. The mind
as a symbol manipulator, in the likeness of a linear computer,
became the conceptual model for the times. Computerized serial
166 Volume 1—Number 2
Psychology of Human Agency
cognitivism was, in turn, supplanted by connectionist models
operating through interconnected, multilayered, neuronal-like
subsystems working simultaneously in parallel. In these models,
sensory organs deliver up information to a multitude of sub-
systems acting as the mental machinery that processes the in-
puts and, through some type of integrating system, generates a
coherent output automatically and nonconsciously out of the
fragmentary neuronal activity.
These alternative theories differ in what they place in the
mediating system—whether or not it includes determinative
functions and the forms they take. Radical behaviorism posits a
noncausal connector, computerized cognitivism posits a linear
central processor, and parallel distributed connectionism posits
interconnected, neuronal-like subunits. But the theories share
the same bottom-up causation: input ! throughput ! output.
In each of these models, the environment acts on the biological
machinery that generates the output automatically and non-
consciously.
These nonagentic conceptions strip humans of agentic capa-
bilities, a functional consciousness, and a self-identity. As
Harré (1983) noted in this connection, it is not sentient indi-
viduals but their subpersonal parts that are orchestrating ac-
tivities nonconsciously. In actuality, however, people act on the
environment. They create it, preserve it, transform it, and even
destroy it, rather than merely react to it as a given. These
changes involve a socially embedded interplay between the
exercise of personal agency and environmental influences.
PHYSICALISTIC THEORY OF HUMAN AGENCY
One must distinguish between the physical basis of thought and
its deliberative construction and functional use. The human
mind is generative, creative, proactive, and reflective, not just
reactive. The dignified burial of the dualistic Descartes forces
one to address the formidable explanatory challenge for a phys-
icalistic theory of human agency and a nondualistic cognitivism.
How do people activate brain processes to realize given inten-
tions and purposes?
Consciousness is the very substance of mental life. It provides
the means to make life not only personally manageable, but also
worth living. Without deliberative and reflective conscious ac-
tivity, humans are simply mindless automatons. Cognitive ca-
pabilities provide us with the means to function as mindful
agents. Consciousness encompasses multiple functions that
reflect the difference between being conscious of an activity and
consciously engaging in purposeful activity (Korsgaard, 1989).
It includes a nonreflective component and a reflective awareness
component, as well as a conceptual functional component op-
erating mainly through the linguistic medium. The functional
aspect of consciousness involves purposefully accessing and
deliberatively processing information for selecting, construct-
ing, regulating, and evaluating courses of action.
Consciousness is an emergent brain activity with higher-level
control functions, rather than simply an epiphenomenal by-
product of lower-level processes. Indeed, if the neuronal pro-
cesses of common activities were automatically reflected in
consciousness, it would be hopelessly cluttered with mind-
numbing contents that would foreclose any functionality. When
one is driving a car, for example, one’s consciousness is filled
with thoughts of other matters rather than simply mirroring the
ongoing neuronal mechanics of driving.
Emergent properties differ in kind from their lower-level
bases. For example, the novel emergent properties of water, such
as fluidity and viscosity, are not simply the combined properties
of its hydrogen and oxygen microcomponents (Bunge, 1977).
Through their interactive effects, these components are trans-
formed into new phenomena. Van Gulick (2001) made the im-
portant distinction between emergent properties and emergent
causal powers over events at the lower level. In the metatheory
enunciated by Sperry (1991, 1993), cognitive agents regulate
their actions by cognitive downward causation and also undergo
upward activation by sensory stimulation.
As previously noted, the evolutionary emergence of a lan-
guage-processing system provided the essential neuronal struc-
ture for the development of a conscious agentic species. Most
human thinking operates through language, drawing on a vast
knowledge base. The core agentic capabilities of intentionality,
forethought, self-reaction, and self-reflection operate as hier-
archically organized determinants. In a theory of cognitive
functionalism (Eccles, 1974; Sperry, 1993), the patterns of
neural activities characterizing interpretive and deliberative
thought processes have a downward regulatory function over
lower-level neural events that lead to action. These structural
and functional properties are central to the exercise of human
agency.
In acting as agents, individuals obviously neither are aware of
nor directly control their neuronal processes and functional
structures. Rather, they exercise second-order control. They do
so by intentionally engaging in activities known to be func-
tionally related to given outcomes. In pursuing these activities,
over which they can exercise control, they activate and modify
subpersonal neuronal events. For purposes of illustration, con-
sider the following analogy. In driving an automobile to a desired
place, the driver engages in coordinated acts of shifting gears,
steering, manipulating the gas pedal, and applying brakes.
These deliberate acts, which the driver can control directly,
regulate the mechanical machinery to get the car safely to where
the driver wants to go. But the driver has neither awareness nor
understanding of the correlative microcombustion, transmis-
sion, steering, and braking processes subserving the driver’s
purposes. The deliberate planning of where to go on a trip, what
route to take, and what to do when one gets there keeps the
neuronal circuitry hard at work.
Consider also dual-level control in skill acquisition. Baseball
coaches get novice pitchers to practice unique ways of throwing a
Volume 1—Number 2 167
Albert Bandura
baseball in strategically designated situations that they know
have an increased likelihood of discombobulating batters. In
practicing and refining their pitching performances, over which
they can exercise direct control, pitchers build and enlist the
subserving neurophysiological machinery over which they un-
knowingly exercise second-order control. Enactments of func-
tional activities at the controllable macrobehavioral level provide
the means for agentic orchestration of the subserving events at the
microneural level.
Much of psychological theorizing and research is devoted to
verifying causal relations between actions and outcomes and the
governing sociocognitive mechanisms. The fact that individuals
have no awareness of their brain processes does not mean that
they are just quiescent hosts of automata that dictate their be-
havior. Neuroimaging can shed light on how agentic causal
beliefs and activities develop functional neuronal structures and
orchestrate neurodynamics.
PROACTIVE AGENTS VERSUS ONLOOKERS
One must distinguish between understanding how the biological
machinery works in implementing cognitive algorithms by the
nervous system and how the biological machinery is orches-
trated agentically for diverse purposes. To use an analogy, the
laws of chemistry and physics explain how a television set
produces images, but do not explain the endless variety of
creative programs it implements. The creative neuronal acti-
vation must be distinguished from the neuronal mechanical
production.
People are contributors to their activities, not just onlooking
hosts of subpersonal networks autonomously creating and reg-
ulating their performances. People conceive of ends and work
purposefully to achieve them. They are agents of experiences,
not just undergoers of experiences. The sensory, motor, and
cerebral systems are tools people use to accomplish the tasks
and goals that give meaning, direction, and satisfaction to their
lives. To make their way successfully through a complex world
full of challenges and hazards, people have to make sound
judgments about their capabilities, anticipate the probable ef-
fects of different events and courses of action, size up socio-
structural opportunities and constraints, and regulate their
behavior accordingly. These belief systems are a working model
of the world that enables people to achieve desired futures and
avoid untoward ones.
Research on brain development underscores the influential
role that agentic action plays in shaping the functional structure
of the brain (Diamond, 1988; Kolb & Whishaw, 1998). It is not
mere exposure to stimulation but agentic action in exploring,
manipulating, and influencing the environment that counts. By
regulating their motivation and activities, people produce the
experiences that form the functional neurobiological substrate
of symbolic, social, psychomotor, and other skills. An agentic
perspective fosters lines of research that can provide new in-
sights into the social and behavioral shaping of brain function.
This is a realm of inquiry in which psychology can make unique
contributions to the biopsychosocial understanding of human
development, adaptation, and change. In nonreductive physi-
calism, all psychosocial phenomena have a physical basis.
Research from an agentic perspective, however, goes beyond the
anatomical localization and brain circuitry subserving human
activities to advance knowledge about brain development and
its functional organization by behavioral means (Dawson, Ash-
man, & Carver,
2000).
ONTOLOGICAL AND EPISTEMOLOGICAL
REDUCTIONISM
A theory of human agency raises the question of reductionism.
One must distinguish among three different forms of reduc-
tionism (Ayala, 1974). In ontological reductionism, mental
events are physical entities and processes, not disembodied
immaterial ones. Epistemological reductionism contends that
the laws governing higher-level psychosocial phenomena are
ultimately reducible to the laws operating at atomic and mo-
lecular levels. Methodological reductionism maintains that re-
search on rudimentary processes is the really fundamental
science that will explain psychosocial phenomena at higher
levels of complexity. In the heyday of behaviorism, for example,
elementary processes were explored with animal analogues,
using mainly rats and pigeons.
Most theorists adopt the ontological view that mental events
are brain activities and not immaterial entities. But how mind,
characterized as higher cognitive processes, arises from lower-
level physical processes remains an intractable problem. As for
methodological reductionism, the knowledge gained through the
study of rudimentary processes is generalizable to some aspects
of human functioning, but there are limits as to what this ap-
proach can tell us about the complex human capacity for ab-
straction and symbolic thinking or the workings of societal
systems. It is the epistemological form of reductibility that is
most in contention. The major argument against it is that each
level of complexity—atomic, molecular, biological, psycholog-
ical, and social structural—involves emergent new properties
that are distinct to that level and must, therefore, be explained
by laws in its own right. Proponents of nonreductive physicalism
are physicalists at the ontological level but nonreductionists at
the epistemological level. Hence, physicality in the ontological
sense does not imply reduction of psychology to biology,
chemistry, or physics. Were one to embark on the epistemolog-
ical reductibility route, the journey would traverse biology and
chemistry and ultimately end in atomic subparticles. Because of
emergent properties at higher levels of complexity, neither the
intermediate locales nor the final stop in atomistic physicalism
can fully account for human behavior.
As Nagel (1961) explained, there are several necessary con-
ditions for reductibility: They include explicitness of theoretical
168 Volume 1—Number 2
Psychology of Human Agency
postulates for each specialized discipline, correspondence or
connectability through theoretical terms in common, and de-
rivability from the postulates of the reducing theory. Neither the
concepts nor the predicates in psychological theories have
representational counterparts in chemistry or physics. Nor is
there an adequate set of bridging principles linking the vocab-
ularies of the reduced and reducing theories, as required to
fulfill the conditions of connectability and derivability. There
are lively debates about the required preciseness in linkage
between the reduced and reducing theories—debates about
whether empirically established links between the two suffice or
whether the bridging principles must provide logically neces-
sary conceptual links (van Gulick, 2001).
Consider even the reduction of psychology to biology. Much of
psychology is concerned with discovering principles about how
to structure environmental conditions to promote given personal
and social outcomes and with the psychosocial mechanisms
through which the environmental influences produce their ef-
fects. This line of theorizing, much of it based on exogenous
determinants, does not have corresponding concepts in neu-
robiological theory. How the neuronal machinery works and how
to regulate it by psychosocial means are different matters.
Knowing where things happen in the brain does not tell you how
to make them happen. Each explanatory system is governed by
its own set of principles that must be studied in its own level.
For example, knowledge of the locality and brain circuitry
subserving learning can say little about the optimal levels of
abstractness, novelty, and intellectual challenge; about how to
get people to attend to, process, and organize relevant infor-
mation; or about whether learning should be conducted inde-
pendently, cooperatively, or competitively. Psychological
science provides a rich body of knowledge regarding the con-
ditions conducive to learning and the psychosocial mechanisms
through which they operate. These social determinants reside in
the structure of learning environments and in socially rooted
incentive systems, enabling opportunity structures, and con-
straints (Bandura, 1986; Johnson & Johnson, 1985; Rosenholz &
Rosenholz, 1981). These determinants operate through model-
ing, social norms, aspirations, and expectations conveyed in the
practices of families, in peer relations, in school systems, and in
socioeconomic life conditions (Bandura, Barbaranelli, Caprara,
& Pastorelli, 1996, 2001). These are the collective social dy-
namics of human learning. They have no conceptual counterpart
in neurobiological theory and, therefore, are not derivable from
it. The optimal learning conditions must be specified by psy-
chological principles. A full explanation of human learning
must, therefore, encompass both the psychosocial principles
and the subserving neurobiological principles governing the
processes of learning.
System-level emergence calls for theoretical plurality across
biological, psychological, and social structural levels of func-
tion, with linkage between them rather than reductibility to a
single superseding theory. The issue of reductionism in an ap-
plied social science must also be evaluated in terms of func-
tional criteria. Can laws at the neuronal, molecular, or atomic
levels tell us how to develop efficacious parents, teachers, ex-
ecutives, or social reformers? For reasons already given, the
psychological level is required to provide such guidance.
ORIGINS OF PERSONAL AGENCY
The newborn arrives without any sense of selfhood and personal
agency. The self must be socially constructed through transac-
tional experiences with the environment. The developmental
progression of a sense of personal agency moves from perceiving
causal relations between environmental events, through un-
derstanding causation via action, and finally to recognizing
oneself as the agent of the actions. Infants exhibit sensitivity to
causal relations between environmental events even in the first
months of life (L. Lent, 1982; Mandler, 1992). They most likely
begin to learn about action causation through repeated obser-
vation of contingent occurrences in which the actions of other
people make things happen. Infants see inanimate objects re-
main motionless unless manipulated by other people (Mandler,
1992). Moreover, they personally experience the effects of ac-
tions directed toward them, which adds salience to the causative
functions of actions. As infants begin to develop some behavi-
oral capabilities, they not only observe but also directly expe-
rience that their actions make things happen. We can greatly
enhance their learning that actions produce certain outcomes by
linking outcomes closely to actions, by using aids that channel
their attention to the outcomes they are producing, and by
heightening the salience and functional value of the outcomes
(Millar, 1972; Millar & Schaffer, 1972; Watson, 1979). With the
development of representational capabilities, infants can begin
to learn from probabilistic and delayed outcomes brought about
by personal actions.
Development of a sense of personal agency requires more than
simply producing effects by actions. Infants acquire a sense of
personal agency when they recognize that they can make things
happen and they regard themselves as agents of their actions.
This additional understanding extends the perception of agency
from action causality to personal causality. The differentiation of
oneself from others is the product of a more general process of
the construction of an agentic self. Proprioceptive feedback from
one’s activities and self-referent information from visual and
other modalities during transactions with the environment aid in
the early perception of an experiential self. Personal effects
resulting from self-directed actions further identify the self as
the recipient experiencing the effects. Thus, if touching a hot
object brings pain, feeding oneself brings comfort, and enter-
taining oneself with manipulable objects generates enjoyment,
such self-produced outcomes foster recognition of oneself as
an agent. The self becomes differentiated from others through
rudimentary dissimilar experiences. If stubbing one’s toe
brings pain, but seeing other people stub their toes brings no
Volume 1—Number 2 169
Albert Bandura
personal pain, one’s own activity becomes distinguished from
that of other persons.
The construction of selfhood is not entirely a matter of private
reflection on one’s experiences. There is a social aspect to this
process. As infants mature and acquire language, the people
around them refer to them by personal names and treat them as
distinct persons. With the development of language, social self-
referent labeling accelerates self-recognition and development
of self-awareness of personal agency. By about 18 months, in-
fants have self-referent verbal labels and apply them to pictures
of themselves, but not pictures of other people (Lewis & Brooks-
Gunn, 1979). They differentiate themselves from others in their
verbal labeling. As they become increasingly aware that they
can produce effects by their actions, by about 20 months, they
spontaneously describe themselves as agents of their actions
and describe their intentions as they engage in activities (Kagan,
1981). Before long, they begin to describe the psychological
states accompanying their actions. On the basis of growing
personal and social experiences, an infant eventually forms a
symbolic representation of him- or herself as a distinct self ca-
pable of making things happen.
There is also a great deal of intentional guidance that fosters
infants’ agentic capabilities (Heckhausen, 1987; Karniol, 1989;
Papousek & Papousek, 1979). Parents create highly noticeable
proximal effects of infants’ actions, providing them with objects
within their manipulative capabilities to encourage production
of effects by actions and segment activities into manageable
subskills. Parents also set challenges for their infants just be-
yond the infants’ existing competencies. They adjust their level
of assistance as infants pass through phases of mastery, offering
explicit guidance in earlier phases of skill acquisition but
gradually withdrawing aid as infants become more competent in
mastering tasks on their own. These types of enabling strategies
are highly conducive to the development of a sense of personal
agency during the initial years of life.
The self is the person, not a homunculan overseer that resides
in a particular place and does the thinking and acting. Selfhood
embodies one’s physical and psychosocial makeup, with a per-
sonal identity and agentic capabilities operating in concert.
Although the brain plays a central role in psychological life,
selfhood does not reside solely in the brain, any more than the
heart is the sole place where circulation is located (Schechtman,
1997). A transplant of the brain of an extraordinary gymnast into
an octogenarian’s body will not produce a sense of self as a
dazzling gymnast, as a single-organ view would imply. Nor are
there multiple independent selves. Individuals wrestle with
conflicting goals and courses of action. However, given but a
single body, the choices finally made and the actions taken at a
given time require unity of agency. Successful implementation
of a chosen course of action also calls for coherent effort.
Adaptive functioning requires both appropriate general-
ization in the face of bewildering situational variation and
perceptive discrimination to avoid dysfunctional overgenerali-
zation. People, therefore, vary in their behavior, with this vari-
ation conditional on circumstances. But these are instances of
the same being doing different things under different life con-
ditions, not different selves doing their separate things. One
cannot be all things. Hence, people vary in how heavily they
invest their personal identity in sociocultural, political, familial,
and occupational aspects of life. A multifaceted self-view and
variability in behavior reflect the complexity of human func-
tioning, not fragmentation of agency.
Personal identity refers to self-characterizations of what one
is. The continuity of personal identity resides more in psycho-
logical factors and the experiential continuity of one’s life course
than in physical constancy. Continuing self-identity in the midst
of notable changes is preserved in memories that give temporal
coherence to life (McAdams, 1996), in continuance of belief and
value commitments that link the present to the past and shape
the future, and in the connectedness of human relationships and
one’s lifework over time. As an agent, one creates identity
connections over time (Korsgaard, 1996) and construes oneself
as a continuing person over different periods in one’s life.
Through their goals, aspirations, social commitments, and ac-
tion plans, people project themselves into the future and shape
the courses their lives take. Personal identity is therefore rooted
not only in phenomenological continuity, but also in agentic
continuity.
Continuity in personal identity is not solely a product of an
intrapsychic autobiographical process that preserves a sense of
selfhood over time. Other people perceive, socially label, and
treat one as the same person over the course of life despite one’s
physical changes. Personal identity is partially constructed from
one’s social identity as reflected in how one is treated by sig-
nificant others. As the model of triadic reciprocal causation
suggests, a sense of selfhood is the product of a complex inter-
play of personal construal processes and the social reality in
which one lives.
FOUNDATION OF HUMAN AGENCY
Among the mechanisms of human agency, none is more central
or pervasive than belief of personal efficacy (Bandura, 1997).
This core belief is the foundation of human agency. Unless
people believe they can produce desired effects by their actions,
they have little incentive to act, or to persevere in the face of
difficulties. Whatever other factors serve as guides and moti-
vators, they are rooted in the core belief that one has the power to
effect changes by one’s actions.
Belief in one’s efficacy is a key personal resource in personal
development and change (Bandura, 1997). It operates through its
impact on cognitive, motivational, affective, and decisional
processes. Efficacy beliefs affect whether individuals think
optimistically or pessimistically, in self-enhancing or self-
debilitating ways. Such beliefs affect people’s goals and aspira-
tions, how well they motivate themselves, and their perseverance
170 Volume 1—Number 2
Psychology of Human Agency
in the face of difficulties and adversity. Efficacy beliefs also
shape people’s outcome expectations—whether they expect their
efforts to produce favorable outcomes or adverse ones. In addi-
tion, efficacy beliefs determine how opportunities and impedi-
ments are viewed. People of low efficacy are easily convinced of
the futility of effort in the face of difficulties. They quickly give up
trying. Those of high efficacy view impediments as surmountable
by improvement of self-regulatory skills and perseverant effort.
They stay the course in the face of difficulties and remain re-
silient to adversity. Moreover, efficacy beliefs affect the quality of
emotional life and vulnerability to stress and depression. And
last, but not least, efficacy beliefs determine the choices people
make at important decisional points. A factor that influences
choice behavior can profoundly affect the courses lives take. This
is because the social influences operating in the selected
environments continue to promote certain competencies, values,
and lifestyles.
Many meta-analyses of the effects of efficacy beliefs have
been conducted. They have included both laboratory and field
studies of diverse spheres of functioning, with diverse popula-
tions of varying ages and sociodemographic characteristics, and
in different cultural milieus (Boyer et al., 2000; Holden, 1991;
Holden, Moncher, Schinke, & Barker, 1990; Moritz, Feltz,
Fahrbach, & Mack, 2000; Multon, Brown, & Lent, 1991; Sadri &
Robertson, 1993; Stajkovic & Luthans, 1998). The evidence
from these meta-analyses shows that efficacy beliefs contribute
significantly to level of motivation, emotional well-being, and
performance accomplishments.
MORAL AGENCY
The exercise of moral agency, rooted in personal standards
linked to self-sanctions, is an important feature of an agentic
theory of human behavior (Bandura, 1986). In the develop-
ment of moral agency, individuals adopt standards of right and
wrong that serve as guides and deterrents for conduct. In
this self-regulatory process, people monitor their conduct and
the conditions under which it occurs, judge it in relation to
their moral standards and perceived circumstances, and
regulate their actions by the consequences they apply to
themselves (Bandura, 1991b). They do things that give them
satisfaction and a sense of self-worth, and they refrain from
behaving in ways that violate their moral standards because
such conduct will bring self-condemnation. Thus, moral agency
is exercised through the constraint of negative self-sanctions for
conduct that violates one’s moral standards and the support of
positive self-sanctions for conduct that is faithful to one’s moral
standards.
People have the capability to refrain from acting, as well as to
act. In the face of situational inducements to behave in inhu-
mane ways, they can choose to behave otherwise by exerting
self-influence. The moral knowledge and standards about how
one ought to behave constitute the cognitive foundation of mo-
rality. The evaluative self-sanctions serve as the motivators that
keep conduct in line with moral standards. Moral thought is
translated into moral conduct through this self-reactive regu-
latory mechanism.
Moral agents commit themselves to social obligations and
righteous causes, consider the moral implications of the choices
they face, and accept some measure of responsibility for their
actions and the consequences of their actions for other people
(Keller & Edelstein, 1993). The types of activities that are
designated as moral, their relative importance, and the sanc-
tions linked to them are culturally situated. Hence, societies,
and even subgroups within them, vary in the types of activities
and social practices they consider to be central to morality
(Shweder,
2003).
The exercise of moral agency has dual aspects—inhibitive and
proactive (Bandura, 2004b; Rorty, 1993). The inhibitive form is
manifested in the power to refrain from behaving inhumanely;
the proactive form is expressed in the power to behave hu-
manely. Thus, in exercising this dual nature of morality, people
do benevolent things, as well as refrain from doing harmful
things. When individuals strongly invest their self-worth in
certain principles and values, they will sacrifice their self-in-
terest and submit to prolonged maltreatment rather than accede
to what they regard as unjust or immoral (Bandura, 1999b;
Oliner & Oliner, 1988).
Moral standards do not function as unceasing internal regu-
lators of conduct, however. Various psychosocial mechanisms
can be used to disengage moral self-sanctions from inhumane
conduct (Bandura, 1991b). Selective moral disengagement is
most likely to occur under moral predicaments in which detri-
mental conduct brings valued outcomes. The disengagement
may center on sanctification of harmful conduct by moral jus-
tification, self-exonerating social comparison, and sanitizing
language. It may focus on obscuring personal agency by diffu-
sion and displacement of responsibility, so that perpetrators do
not hold themselves accountable for the harm they cause. It may
involve minimizing, distorting, or even disputing the harm that
flows from detrimental actions. And the disengagement may
include dehumanizing, demonizing, and blaming the recipients
of the injurious actions. Through selective moral disengage-
ment, people who are considerate and compassionate in other
areas of their lives can get themselves to support detrimental
social policies, carry out harmful organizational and social
practices, and perpetrate large-scale inhumanities (Bandura,
1999a).
In the nonagentic microdeterministic theories reviewed ear-
lier, behavior is the product of nonconscious processes in which
environmental inputs activate subpersonal modules that cause
the actions. If people’s actions are the product of the noncon-
scious workings of their neuronal machinery, and their
conscious states are simply the epiphenomenal outputs of lower-
level brain processes, it is pointless to hold people responsible
for the choices they make and what they do. No one should be
Volume 1—Number 2 171
Albert Bandura
held personally accountable for their harmful behavior—not
transgressors for their crimes, police for abusive enforcement
practices, prosecutors and jurors for biased sentencing prac-
tices, jailers for maltreatment of inmates, or the citizenry for the
social conditions their public policies and practices breed. They
can all disclaim responsibility for their actions. Their neural
networks made them do it.
Analyses of neuroethics center mainly on the more parochial
issues. They include the ethics of pharmacological manipulation
of neural systems for self-enhancement and court-ordered
management of offenders, breaches of privacy through func-
tional neuroimaging intended to detect personal characteristics
and cognitive and emotional states, genetic counseling, and the
like (Farah, 2002). The more fundamental moral implications of
neuroethics receive little notice, however.
The subpersonal workings of the biological machinery are
nonethical. The issue of morality arises in the purposes to which
behavior is put, the means that are used, and the human con-
sequences of the actions. A deterministic thesis that humans
have no conscious control over what they do, in fact, represents a
position on morality. It is a position of moral nonaccountability
that is socially consequential. Would a nonagentic conception of
human nature erode the personal and social ethics that under-
gird a civil society? How would people create and maintain a
civil society if its members were absolved of any personal ac-
countability for their actions?
The capacity for moral agency is founded on a sense of per-
sonal identity, moral standards, and behavioral regulation
through self-sanctions (Bandura, 1991b). This ability is ac-
quirable. Social judgments of detrimental conduct are made in
terms of personal controllability of the actions. For example, it is
within individuals’ capacity to stop at a red signal light. A driver
who caused a fatal injury by running a red light would be held
accountable for his actions. In moral agency, individuals can
exercise some measure of control over how situations influence
them and how they shape the situations. In the triadic interplay
of intrapersonal, behavioral, and environmental events, indi-
viduals insert personal influence into the cycle of causation by
their choices and actions. Because they play a part in the course
of events, they are at least partially accountable for their con-
tribution to those happenings.
Research conducted within the agentic perspective has fur-
thered our understanding of the determinants and processes
governing the development and exercise of moral agency
(Bandura, 1991b, 1999a). These diverse lines of research clarify
how individuals construct moral standards from the mix of social
modeling, the moral values conveyed by evaluative social
sanctions of their conduct, and tuition. They specify the pro-
cesses by which people select, weigh, and integrate morally
relevant information in making moral judgments. They explain
the self-regulatory mechanisms linking moral judgments to
moral conduct through self-sanctions. And they elucidate the
psychosocial processes through which moral self-sanctions are
selectively engaged and disengaged in the management of moral
predicaments.
GENETIZATION OF HUMAN BEHAVIOR
We are currently witnessing an extensive ‘‘genetization’’ of hu-
man behavior. Social roles and human practices are increasingly
being proclaimed to be driven by the inertia of ancient biological
programming. Not all evolutionary theorists speak with one
voice, however. Psychological evolutionists often take a more
extreme deterministic stance regarding the rule of nature
(Archer, 1996; Buss, 1995) than do many biological evolution-
ists (Dobzhansky, 1972; Fausto-Sterling, 1992; Gould, 1987;
Gowaty, 1997). Psychological evolutionists are quick to invoke
evolved behavioral traits as cultural universals. Natural selec-
tion operates through functional advantages of adaptive patterns
in a given environment. Biological evolutionists, therefore,
emphasize functional relations between organisms and local
environmental conditions, underscoring the diversifying selec-
tion influence of variant ecological niches. Cultures evolve over
generations and shape the ways people need to live to survive in
the particular cultural milieu in which they are immersed (Boyd
& Richerson, 1985, 2005). As Boyd noted (Dreifus, 2005), hu-
mans evolved in the tropics but hunt seals in the Arctic. Genes
did not teach them how to build a kayak; their culture did.
Biology provides the information-processing architectures
and potentialities and sets constraints. But in most spheres of
functioning, biology permits a broad range of cultural possibil-
ities. As Gould (1987) noted, the major explanatory dispute is
not between nature and nurture, as the issue is commonly
framed. Rather, the issue in contention is whether nature op-
erates as a determinist that has culture on a ‘‘tight leash,’’ as
Wilson (1998) contended, or as a potentialist that has culture on
a ‘‘loose leash,’’ as Gould (1987) maintained.
Humans have created societies of diverse natures: aggressive
and pacific ones, egalitarian and despotic ones, altruistic
and selfish ones, individualistic and collectivistic ones, and
enlightened and backward ones. Evidence supports the po-
tentialist view. For example, people possess the biological
capability for aggressive acts, but cultures differ markedly in
aggressiveness (Alland, 1972; Gardner & Heider, 1969; Levy,
1969). There are also wide differences in aggression within the
same culture (Bandura, 1973). Even entire nations, such as
Sweden and Switzerland, have transformed from warring soci-
eties to pacific ones. The Swiss used to be the main suppliers of
mercenary fighters in Europe. As they transformed into a pacific
society, their militaristic vestige was evident only in the plumage
of the Vatican guards. For ages, the Vikings plundered other
nations. After a prolonged war with Russia, the populace rose up
and forced a constitutional change (Moerk, 1995) that prohib-
ited kings from starting wars. This political act promptly
transformed a warring society into a peaceful one. Sweden is now
a mediator for peace among warring nations. Cultural diversity
172 Volume 1—Number 2
Psychology of Human Agency
and the rapid transformative societal changes that have oc-
curred underscore that the answer to human aggression lies
more in ideology than in biology.
Biological determinists support a conservative view of society
that emphasizes the rule of nature, inherent constraints, and
limitations. They contend that people should not try to remake
themselves and their societies against the rule of nature, as the
determinists construe it. Biological potentialists give greater
weight to enabling social conditions that promote self-devel-
opment and societal change. They emphasize human possibili-
ties and how to realize them. People have changed little
genetically over the past millennium, but over the recent dec-
ades they have changed markedly in their beliefs, mores, social
and occupational roles, cohabiting arrangements, family prac-
tices, and styles of behavior in diverse spheres of life. They have
done so through rapid cultural and technological evolution.
GROWING PRIMACY OF HUMAN AGENCY IN THE
COEVOLUTION PROCESS
Dobzhansky (1972) reminded us that humans are a generalist
species that was selected for learnability and plasticity of be-
havior, not for behavioral fixedness. Although not limitless,
malleability and agentic capability are the hallmark of human
nature. Because of limited innate programming, humans require
a prolonged period of development to master essential compe-
tencies. Moreover, different periods of life present variant
competency demands requiring self-renewal over the life course
if the challenges of changing life circumstances are to be met.
Adding to the necessity of changeability, the eras in which
people live usher in technological innovations, shifts in socio-
economic conditions, cultural upheavals, and political changes
that make life markedly different and call for new advantageous
adaptations (Elder, 1994). These diverse adaptational changes
are cultivated by psychosocial means.
People are not just reactive products of selection pressures
served up by a one-sided evolutionism. They are prime players
in the coevolution process. Social cognitive theory does not
question the contribution of genetic endowment. Indeed, this
endowment provides the very neuronal structures and mecha-
nisms for the agentic attributes that are distinctly human. These
include generative thought, symbolic communication, fore-
thought, self-regulation, and reflective self-consciousness. The
uniqueness of humans resides in these self-directing and self-
transforming capacities.
Other species are heavily innately programmed as specialists
for stereotypic survival in a particular habitat. In contrast,
through agentic action, people devise ways of adapting flexibly
to remarkably diverse geographic, climatic, and social envi-
ronments. They devise ways to transcend their biological limi-
tations. For example, humans have not evolved morphologically
to fly, but they are soaring through the air and even in the rarified
atmosphere of outer space at breakneck speeds despite this
fundamental constraint. Agentic inventiveness trumped bio-
logical design in getting them airborne. People use their inge-
nuity to circumvent and insulate themselves from selection
pressures. They create devices that compensate immensely for
their sensory and physical limitations. They construct complex
environments to fit their desires, many of which are fads and
fashions that are socially created by aggressive marketing
practices. They create intricate styles of behavior necessary to
thrive in complex social systems, and through social modeling
and other forms of social guidance pass on to subsequent gen-
erations accumulated knowledge and effective practices. They
transcend time, place, and distance, as they interact globally
with the virtual environment of the cyberworld.
Through contraceptive ingenuity that disconnected sex from
procreation, humans have outwitted and taken control over their
evolved reproductive system. They seek sex without reproduc-
tive outcomes, rather than strive to propagate their kind in large
numbers. They are developing reproductive technologies to
separate sex even from fertilization. Through genetic engineer-
ing, humans are creating biological natures, for better or for
worse, rather than waiting for the slow process of natural evo-
lution. They are now changing the genetic makeup of plants and
animals. Unique native plants that have evolved over eons are
disappearing as commercial horticulturalists are supplanting
them with genetically uniform hybrids and clones. Not only are
humans cutting and splicing nature’s genetic material, but,
through synthetic biology, they are also creating new types of
genomes. Humans are even toying with the prospect of fash-
ioning some aspects of their own biological nature by genetic
design.
The creative power of human agency generally is downgraded
in evolutionary accounts of human behavior, especially in the
more biologically deterministic views propounded in psycho-
logical evolutionism. Given the growing human modifications of
evolved heritages and creative circumventing of endowed lim-
itations, the common notion that biological evolution provides
the potential and culture can do only so much with it alleges
greater physical constraints than does evidence from the ex-
traordinary human achievements of inventive agency.
As testified to by the diverse modes of behavioral control, the
psychosocial side of coevolution is gaining ascendancy through
the agentic power to transform environments and what humans
become. In short, we are an agentic species that can alter evo-
lutionary heritages and shape the future. What is technologi-
cally possible is likely to be attempted by someone. We face the
prospect of increasing effort directed toward social construction
of our biological nature through genetic design. These devel-
opments present an enormous challenge regarding how to bridle
unbounded genetic manipulation (Baylis & Robert, 2004). The
values to which people subscribe, and the social systems they
devise to oversee the uses to which their technological power is
put, will play a vital role in what people become and how they
shape their destiny.
Volume 1—Number 2 173
Albert Bandura
Were Darwin writing today, he would be documenting the
overwhelming human domination of the environment. Many
of the species in our degrading planet have no evolutionary
future. We are wiping out species and the ecosystems that
support life at an accelerating pace. Unlike former mass
extinctions by meteoric disasters, the current mass extinc-
tion of species is the product of human behavior. As the
unrivaled ruling species atop the food chain, we are draft-
ing the requiem for biodiversity. By wielding powerful tech-
nologies that amplify control over the environment, humans are
producing hazardous global changes of huge magnitude—de-
forestation, desertification, global warming, topsoil erosion and
sinking of water tables in the major food-producing regions,
depletion of fisheries, and degradation of other aspects of
the earth’s life-support systems. Expanding economies fueling
consumptive growth by billions of people will intensify
competition for the earth’s vital resources and overwhelm efforts
to secure an environmentally and economically sustainable
future. Myriad parochial interests create tough impediments
to improving living standards globally through sustainable
ecodevelopment in which economic growth preserves the envi-
ronmental basis for it. Through collective practices driven
by a foreshortened perspective, humans may be well on the
road to outsmarting themselves into irreversible ecological
crises.
The global ecosystem cannot sustain soaring population
growth and high consumption of finite resources. Some of the
global applications of social cognitive theory are aimed at
abating this most urgent global problem, especially in less-de-
veloped nations that have experienced high fertility rates and
doubling of their populations over a short period (Bandura,
2002a; Rogers et al., 1999). These applications also seek to curb
the spreading AIDS pandemic and to raise the status of women
in societies in which they are marginalized, disallowed aspira-
tions, and denied their liberty and dignity. These worldwide
applications combine the functions of three models in ways that
augment widespread changes. They combine a theoretical
model that provides the guiding principles, a translational and
implementational model that converts theory into innovative
practice, and a social diffusion model that fosters adoption of
changes through functional adaptations to diverse cultural mi-
lieus.
These global applications in Africa, Asia, and Latin America
use the enabling power and reach of the mass media, in the form
of long-running serialized dramas, as the vehicle of personal and
social change. They portray people’s everyday lives, the im-
pediments with which they struggle, and realistic solutions to
those impediments. They inform, enable, and motivate people to
take control of their reproductive life, to visualize a better future,
and to take the steps to realize it. These types of changes help
people break the cycle of poverty, improve their lives, and adopt
reproductive and environmental practices that support ecolog-
ical sustainability.
EXERCISE OF AGENCY IN CULTURAL CONTEXT
A contentious dualism pervades the field of cultural psychol-
ogy, pitting autonomy against interdependence, individualism
against collectivism, and human agency against social structure
reified as an entity disembodied from the behavior of individu-
als. It is widely claimed that Western theories lack generaliz-
ability to non-Western cultures. In truth, however, the relative
weight given to individual, proxy, and collective agency varies
cross-culturally and across spheres of life, but one needs all
forms of agency to make it through the day, regardless of where
one happens to live.
Most of cultural psychology is based on territorial culturalism.
Nations are used as proxies for psychosocial orientations. For
example, residents of Japan get categorized as collectivists, and
those in the United States as individualists. But cultures are
dynamic and internally diverse systems, not static monoliths.
There is substantial diversity among societies placed in the
same category. For example, collectivistic systems founded on
Confucianism, Buddhism, and Marxism all favor a communal
ethic. But they differ in values, meanings, and the customs they
promote (Kim, Triandis, Kâğitçibasi, Choi, & Yoon, 1994). Nor
are so-called individualistic cultures a uniform lot. Americans,
Italians, Germans, French, and the British differ in their brands
of individualism. There is also diversity across regions within
the same country. In the United States, the Northeast brand of
individualism is quite different from the Midwestern and
Western versions, which differ from that of the Deep South
(Vandello & Cohen, 1999). Given the notable diversity, bicul-
tural contrasts in which members of a single collectivist culture
are compared with those of a single individualistic one can
spawn misleading generalizations.
The differences associated with sociodemographic charac-
teristics are even greater than the differences between cultures
(Matsumoto, Kudoh, & Takeuchi, 1996). For example, there are
generational and socioeconomic differences in communality in
collectivistic cultures. Analyses across activity domains and
classes of social relationships further reveal that people behave
communally in some aspects of their lives and individualisti-
cally in many other aspects (Freeman & Bordia, 2001; Matsu-
moto et al., 1996). They express their cultural orientations
conditionally, depending on incentive conditions, rather than
invariantly (Yamagishi, 1988). Measures of cultural traits cast in
terms of faceless others and disembodied from domains of ac-
tivity, social contexts, and incentive conditions mask this di-
versity upon which human adaptation is conditional. This
multifaceted diversity underscores the conceptual and empiri-
cal problems of using nations as proxies for culture, and then
ascribing global traits to a nation and its members as though they
all believed and behaved alike (Gjerde & Onishi, 2000).
Not only are cultures not monolithic entities, but they are no
longer insular. Global connectivity is shrinking cross-cultural
uniqueness. Transnational interdependencies and global mar-
174 Volume 1—Number 2
Psychology of Human Agency
ket forces are restructuring national economies, and shaping the
political and social life of societies. Advanced telecommuni-
cations technologies are disseminating ideas, values, and styles
of behavior transnationally at an unprecedented rate. The
symbolic environment, feeding off communication satellites, is
altering national cultures and producing intercultural com-
monalities in some lifestyles. The growing role of electronic
acculturation is fostering a more extensive globalization of
culture. People worldwide are becoming increasingly enmeshed
in a cyberworld that transcends time, distance, place, and na-
tional borders. In addition, mass migrations of people, and high
global mobility of entertainers, athletes, journalists, academics,
and employees of multinational corporations, are changing
cultural landscapes. This intermixing creates new hybrid cul-
tural forms, blending elements from different ethnicities.
Growing ethnic diversity within societies conveys functional
value to bicultural efficacy that can be used to navigate the
demands of both one’s ethnic subculture and the culture of the
larger society.
These social forces are homogenizing some aspects of life,
polarizing other aspects, and fostering considerable cultural
hybridization (Holton, 2000). The new realities call for broad-
ening the scope of cross-cultural research to include analyses of
how national and global forces interact to shape the nature of
cultural life. As globalization reaches ever deeper into people’s
lives, a strong sense of collective efficacy to make transnational
systems work for them becomes critical to furthering their
common interests and welfare.
One must distinguish between inherent capacities and how
culture shapes these potentialities into diverse forms. For ex-
ample, observational learning figures prominently in social
cognitive theory. Humans have evolved an advanced capacity
for observational learning. It is essential for their self-devel-
opment and functioning regardless of the culture in which they
reside. Indeed, in many cultures, the word for ‘‘learning’’ is the
word for ‘‘show’’ (Reichard, 1938). Modeling is a universalized
human capacity. But what is modeled, how modeling influences
are socially structured, and the purposes they serve vary across
cultural milieus (Bandura & Walters, 1963). Global applications
of social cognitive theory to promote society-wide changes attest
to the power of social modeling in diverse cultural milieus
(Bandura, 2002a, 2006; Rogers et al., 1999; Vaughan, Rogers,
Singhal, & Swalehe, 2000).
A growing body of research shows that a resilient sense of
efficacy has generalized functional value regardless of whether
one resides in an individualistically oriented culture or a col-
lectivistically oriented one (Earley, 1993, 1994; Gibson, 1995).
Being immobilized by self-doubt and believing in the futility of
effort have little evolutionary advantage. But how efficacy be-
liefs are developed and structured, the ways in which they are
exercised, and the purposes to which they are put vary cross-
culturally. In short, there is cultural commonality in basic
agentic capacities and mechanisms of operation, but diversity in
the culturing of these inherent capacities. In this dual-level
analysis, universality is not incompatible with manifest cultural
plurality. Kluckhohn and Murray summarized eloquently the
blend of universality, commonality, and uniqueness of human
qualities: Every person is in certain aspects like all other people,
like some other people, like no other person (as cited in Muñoz &
Mendelson, 2005).
Research testifies to the cross-cultural generalizability of self-
efficacy theory. The factor structure of self-efficacy beliefs is
essentially the same in different cultural systems (Pastorelli et
al., 2001). Not only is the structure of self-efficacy beliefs
comparable cross-culturally, but so are their functional prop-
erties. Regardless of whether the culture is American, Italian,
Korean, or Chinese, the stronger the perceived self-efficacy, the
higher the performance attainments (Bandura et al., 1996; Bong,
2001; Joo, Bong, & Choi, 2000; Shih & Alexander, 2000).
The cross-cultural comparability of function is evident as well in
the impact of efficacy beliefs on perceived occupational efficacy
and career choice and development (Bandura et al., 2001;
R. Lent, Brown, & Larkin, 1987; R. Lent, Brown, Nota, & Soresi,
2003). Even the mechanisms through which self-efficacy beliefs
affect performance are replicated cross-culturally (Bandura,
2002b; Cheung & Sun, 2000; R. Lent et al., 2003; Park et al.,
2000).
GROWING PRIMACY OF HUMAN AGENCY IN DIVERSE
SPHERES OF LIFE
The societies of today are undergoing drastic social, informa-
tional, and technological changes. The revolutionary advances
in electronic technologies and globalization are transforming the
nature, reach, speed, and loci of human influence. These new
realities present new challenges and vastly expand opportuni-
ties for people to exercise some measure of control over how they
live their lives. Wrenching changes that dislocate and restruc-
ture lives are not new in history. What is new is the boundless
scope and accelerated pace of human transactions, and the
growing globalization of human interconnectedness.
Life in the rapidly evolving cyberworld transcends time,
place, distance, and national borders, and alters our conceptions
of them. People now have instantaneous communicative access
worldwide. It is transforming how people communicate, educate,
relate to each other, and conduct their business and daily affairs.
These transformative changes are placing a premium on the
exercise of human agency to shape personal destinies and the
national life of societies.
Most of our psychological theories were formulated long be-
fore the revolutionary changes in communications and the new
social realities these technologies have created. Given the
circumscribed situational boundedness of people’s lives at
the time, the traditional psychological theories focused heavily
on behavioral transactions and contingencies operating within
people’s confined tangible environment. The situational tran-
Volume 1—Number 2 175
Albert Bandura
scendence afforded by ready access to vast symbolic envi-
ronments in the cyberworld has enabled people to take a strong-
er hand in shaping their lives. Consider some examples of the
growing primacy of human agency in virtually every sphere of
life.
In the educational field, students can now exercise greater
personal control over their own learning. In the past, their
educational development was heavily dependent on the quality
of the schools in which they were enrolled. Students now have
the best libraries, museums, and multimedia instruction at their
fingertips through the global Internet, and they can use
these resources for educating themselves. They can do this
independently of time and place. This shift in the locus of ini-
tiative requires a major reorientation in students’ concep-
tion of education. They are agents of their own learning, not just
recipients of information. Education for self-directedness
is now vital for a productive and innovative society. Proficient
self-regulators gain knowledge, skills, and intrinsic interest in
academic areas; deficient self-regulators achieve limited self-
development (Schunk & Zimmerman, 1994; Zimmerman, 1989).
At the student, teacher, and school levels, a sense of
efficacy contributes to academic development (Bandura, 1997;
Pajares & Schunk, 2001). We are entering a new era in which the
construction of knowledge will rely increasingly on electronic
inquiry. Students with high perceived efficacy for self-regulated
learning are the ones who make the best use of Internet-based
instruction (Joo et al., 2000).
Health is another sphere of functioning in which the exercise
of personal agency is gaining prominence. The health field is
changing from a disease model to a health model. It is just as
meaningful to speak of levels of vitality and healthfulness as to
speak of degrees of impairment and debility. The quality of
health is heavily influenced by lifestyle habits, which means that
people can exercise some control over their health. Current
health practices focus heavily on the medical supply side, and
there is growing pressure on health systems to reduce, ration,
and delay health services to contain health costs. The social
cognitive approach, founded on an agentic model of health
promotion, focuses on the demand side (Bandura, 2000b,
2004a). It promotes effective self-management of health habits
that keep people healthy.
Increasing applications of the self-regulatory model are en-
hancing people’s health status, improving the quality of their
lives, and reducing their risk of disease and need for costly
health services (Bandura, 2005; M. Clark et al., 1997; DeBusk et
al., 1994; Holman & Lorig, 1992; Lorig & Holman, 2003). This
self-regulatory model is being integrated into mainstream health
care systems and adopted internationally (N. Clark et al., in
press; Dongbo et al., 2003; Lorig, Hurwicz, Sobel, & Hobbs, in
press). People’s beliefs in their self-regulatory efficacy affect
every phase in the adoption of healthful practices—whether
they even consider changing their health habits, whether they
enlist the motivation and perseverance needed to succeed
should they choose to do so, and how well they maintain the
changes they have achieved (Bandura, 1997, 2004a).
A major part of people’s daily life is spent in occupational
activities. These pursuits do more than provide income for one’s
subsistence. They serve as a major source of personal identity,
self-evaluation, and social connectedness. Beliefs of personal
efficacy play a key role in occupational development and pur-
suits (Bandura, 1997; R. Lent, Brown, & Hackett, 1994). The
capacity for self-renewal is becoming a prominent factor in a
satisfying occupational life. In the past, employees learned a
given trade and performed it much the same way throughout
their lifetime in the same organization. The historic transition
from the industrial to the information era calls for advanced
cognitive and self-regulatory competencies. With the fast pace
of change, knowledge and technical skills are quickly outmoded
unless they are updated to fit the new technologies. Employees
have to take charge of their self-development to meet the
challenges of evolving positions and careers over the full course
of their work lives. Those of high self-efficacy influence the
course of their occupational self-development, are receptive to
innovations, and make their work life more productive and
satisfying by restructuring their occupational roles and the
processes by which their work is performed (Frese, Teng, &
Cees, 1999; Jorde-Bloom & Ford, 1988; McDonald & Siegall,
1992; Speirer & Frese, 1997).
Many occupational activities are increasingly conducted by
members of virtual teams working together from scattered lo-
cations via the Internet. Working remotely across time, space,
and cultural orientations can be taxing. A high sense of efficacy
promotes positive attitudes for remotely conducted collaborative
work and enhances group performance (Staples, Hulland, &
Higgins,
1998).
Agentic adaptability has become a premium at the organiza-
tional level as well. Organizations must continuously innovate to
survive and prosper in the rapidly changing global marketplace.
They face the paradox of preparing for change at the height of
success. Many fall victim to the inertia of success. They get
locked into the technologies and products that produced their
success and fail to adapt fast enough to the technologies and
marketplaces of the future. The development of new business
ventures and the renewal of established ones depend heavily on
innovativeness and entrepreneurship. Turning visions into re-
alities entails heavy investment of time, effort, and resources in
ventures strewn with many difficulties, unmerciful impedi-
ments, and uncertainties. A resilient sense of efficacy provides
the necessary staying power in the torturous pursuit of innova-
tions. Indeed, perceived self-efficacy predicts entrepreneurship
and which patent inventors are likely to start new business
ventures (Baron & Markman, 2003; Chen, Greene, & Crick,
1998).
It is the organizations with a high sense of collective efficacy
that create innovative changes that fit evolving technologies and
global marketplaces (Bandura, 2000a). However, hard-driving
176 Volume 1—Number 2
Psychology of Human Agency
competitiveness raises value issues concerning the purposes to
which human talent, advanced technologies, and resources are
put. Some intense market activities promote lavish consumption
that neither uses our finite resources wisely nor leads to a better
quality of life. Many of these practices may be profitable in the
short run, but, as previously noted, they are environmentally
unsustainable in the long run.
The revolutionary advances in communications technology
also enable people to bring their influence to bear on social and
political matters in ways that were not possible before. The In-
ternet technology gives people an instrument of global reach,
free of centralized institutional controls and gatekeepers who
reign over the mass media. People can now transcend time,
place, and national borders to make their voice heard on matters
of personal interest and concern. The Internet is not only a ve-
hicle of unlimited social reach. It also serves as a means for
building social networks by connecting disparate groups and
individuals in pursuit of common cause. By coordinating and
mobilizing decentralized self-organizing groups, people can
meld local networks with different self-interests into a vast
collectivity for unified action for common purpose (Shapiro,
2003).
The Internet is a tool that requires personal enablement for its
effective use. It is individuals with a sense of personal and
collective efficacy who voice their views and participate in so-
cial and political activities in the arena of the cyberworld
(Bandura, 1997). But human agency does not come with a built-
in value system. The Internet is a double-edged tool. Internet
freelancers can use this unfiltered and unfettered forum to
propagate hate and to mobilize support for detrimental social
practices.
CONCLUDING REMARKS
Viewed from the perspective of nonreductive physicalism, the
field of psychology is not merely an ancillary branch of a more
fundamental theoretical system. Psychology is the one disci-
pline that uniquely encompasses the complex interplay among
biological, intrapersonal, interpersonal, and sociostructural
determinants of human functioning. As a core discipline, it is
especially well suited to advance understanding of the inte-
grated biopsychosocial nature of humans, and how they agen-
tically manage and shape the everyday world around them.
Today’s world of accelerated social, informational, and techno-
logical changes with instant communicative access worldwide
provides people with expanded opportunities to bring their in-
fluence to bear on events that affect their lives. The exercise of
individual and collective agency is contributing increasingly, in
virtually every sphere of life, to human development, adaptation,
and change. At the broader social level, the challenges center on
how to enlist these agentic human capabilities in ways that
shape a better and sustainable future.
Acknowledgments—A major portion of this article was pre-
sented at the annual meeting of the American Psychological
Society in Chicago, May 2004, for the James McKeen Cattell
Award for Distinguished Achievements in Psychological Sci-
ence. A few sections of this article include revised, updated, and
expanded material from Bandura (2001).
REFERENCES
Alland, A., Jr. (1972). The human imperative. New York: Columbia
University Press.
Archer, J. (1996). Sex differences in social behavior: Are the social role
and evolutionary explanations compatible? American Psycholo-
gist, 51, 909–917.
Austin, J.H. (1978). Chase, chance, and creativity: The lucky art of
novelty. New York: Columbia University Press.
Ayala, F. (1974). The concept of biological process. In F. Ayala & T.
Dobzhansky (Eds.), Studies in the philosophy of biology: Reduc-
tions and related problems (pp. 339–356). Berkeley: University of
California Press.
Baltes, M.M. (1996). The many faces of dependency in old age. New
York: Cambridge University Press.
Bandura, A. (1973). Aggression: A social learning analysis. Englewood
Cliffs, NJ: Prentice-Hall.
Bandura, A. (1982). The psychology of chance encounters and life
paths. American Psychologist, 37, 747–755.
Bandura, A. (1986). Social foundations of thought and action: A social
cognitive theory. Englewood Cliffs, NJ: Prentice-Hall.
Bandura, A. (1991a). Self-regulation of motivation through anticipatory
and self-reactive mechanisms. In R.A. Dienstbier (Ed.), Nebraska
symposium on motivation: Vol. 38. Perspectives on motivation (pp.
69–164). Lincoln: University of Nebraska Press.
Bandura, A. (1991b). Social cognitive theory of moral thought and
action. In W.M. Kurtines & J.L. Gewirtz (Eds.), Handbook of moral
behavior and development (Vol. 1, pp. 45–103). Hillsdale, NJ:
Erlbaum.
Bandura, A. (1997). Self-efficacy: The exercise of control. New York:
Freeman.
Bandura, A. (1998). Exploration of fortuitous determinants of life paths.
Psychological Inquiry, 9, 95–99.
Bandura, A. (1999a). Moral disengagement in the perpetration of in-
humanities. Personality and Social Psychology Review, 3, 193–
209.
Bandura, A. (1999b). A social cognitive theory of personality. In L.
Pervin & O. John (Eds.), Handbook of personality (2nd ed., pp.
154–196). New York: Guilford Publications.
Bandura, A. (2000a). Exercise of human agency through collective
efficacy. Current Directions in Psychological Science, 9, 75–78.
Bandura, A. (2000b). Health promotion from the perspective of social
cognitive theory. In P. Norman, C. Abraham, & M. Conner (Eds.),
Understanding and changing health behaviour (pp. 299–339).
Reading, England: Harwood.
Bandura, A. (2001). Social cognitive theory: An agentic perspective.
Annual Review of Psychology, 52, 1–26.
Bandura, A. (2002a). Environmental sustainability through sociocog-
nitive approaches to deceleration of population growth. In P.
Schmuck & W. Schultz (Eds.), The psychology of sustainable de-
velopment (pp. 209–238). Dordrecht, The Netherlands: Kluwer.
Volume 1—Number 2 177
Albert Bandura
Bandura, A. (2002b). Social cognitive theory in cultural context.
Journal of Applied Psychology: An International Review, 51, 269–
290.
Bandura, A. (2004a). Health promotion by social cognitive means.
Health Education & Behavior, 31, 143–164.
Bandura, A. (2004b). Selective exercise of moral agency. In T.A.
Thorkildsen & H.J. Walberg (Eds.), Nurturing morality (pp. 37–
57). Boston: Kluwer Academic.
Bandura, A. (2005). The primacy of self-regulation in health promotion.
Applied Psychology: An International Review, 54, 245–254.
Bandura, A. (2006). Going global with social cognitive theory: From
prospect to paydirt. In S.I. Donaldson, D.E. Berger, & K. Pezdek
(Eds.), The rise of applied psychology: New frontiers and rewarding
careers (pp. 53–79). Mahwah, NJ: Erlbaum.
Bandura, A., Barbaranelli, C., Caprara, G.V., & Pastorelli, C. (1996).
Multifaceted impact of self-efficacy beliefs on academic func-
tioning. Child Development, 67, 1206–1222.
Bandura, A., Barbaranelli, C., Caprara, G.V., & Pastorelli, C. (2001).
Self-efficacy beliefs as shapers of children’s aspirations and career
trajectories. Child Development, 72, 187–206.
Bandura, A., & Walters, R.H. (1963). Social learning and personality
development. New York: Holt, Rinehart & Winston.
Baron, R.A., & Markman, G.D. (2003). Beyond social capital: The role
of entrepreneurs’ social competence in their financial success.
Journal of Business Venturing, 18, 41–60.
Bartlett, J. (1992). Familiar quotations: A collection of passages,
phrases, and proverbs traced to their sources in ancient and modern
literature (16th ed.; J. Kaplan, Ed.). Boston: Little, Brown.
Baylis, F., & Robert, J. (2004). The inevitability of genetic enhancement
technologies. Bioethics, 18, 1–26.
Bong, M. (2001). Between- and within-domain relations of academic
motivation among middle and high school students: Self-efficacy,
task-value, and achievement goals. Journal of Educational Psy-
chology, 93, 23–34.
Boyd, R., & Richerson, P.J. (1985). Mechanisms of cultural evolution.
Chicago: University of Chicago Press.
Boyd, R., & Richerson, P.J. (2005). Not by genes alone: How culture
transformed human evolution. Chicago: University of Chicago
Press.
Boyer, D.A., Zollo, J.S., Thompson, C.M., Vancouver, J.B., Shewring,
K., & Sims, E. (2000, June). A quantitative review of the effects of
manipulated self-efficacy on performance. Poster session presented
at the annual meeting of the American Psychological Society,
Miami, FL.
Brandtstädter, J., & Baltes-Gotz, B. (1990). Personal control over de-
velopment and quality of life perspectives in adulthood. In P.B.
Baltes & M.M. Baltes (Eds.), Successful aging: Perspectives from
the behavioral sciences (pp. 197–224). Cambridge, England:
Cambridge University Press.
Bratman, M.E. (1999). Faces of intention: Selected essays on intention
and agency. New York: Cambridge University Press.
Bunge, M. (1977). Emergence and the mind. Neuroscience, 2, 501–509.
Burns, T.R., & Dietz, T. (1992). Cultural evolution: Social rule
systems, selection and human agency. International Sociology, 7,
259–283.
Buss, D. (1995). Psychological sex differences: Origins through sexual
selection. American Psychologist, 50, 164–168.
Carlson, R.A. (2002). Conscious intentions in the control of skilled
mental activity. In B. Ross (Ed.), The psychology of learning and
motivation (Vol. 41, pp. 191–228). San Diego, CA: Academic
Press.
Chen, C.C., Greene, P.G., & Crick, A. (1998). Does entrepreneurial
self-efficacy distinguish entrepreneurs from managers? Journal of
Business Venturing, 13, 295–316.
Cheung, S., & Sun, S.Y.K. (2000). Effects of self-efficacy and social
support on the mental health conditions of mutual-aid organization
members. Social Behavior and Personality, 28, 413–422.
Clark, M., Ghandour, G., Miller, N.H., Taylor, C.B., Bandura, A., &
DeBusk, R. (1997). Development and evaluation of a computer-
based system for dietary management of hyperlipidemia. Journal
of the American Dietetic Association, 97, 146–150.
Clark, N., Gong, M., Kaciroti, N., Yu, J., Wu, G., Zeng, Z., & Wu, Z. (in
press). A trial of asthma self-management in Beijing schools.
Chronic Illness.
Dawson, G., Ashman, S., & Carver, L. (2000). The role of early expe-
rience in shaping behavioral and brain development and its im-
plications for social policy. Development and Psychopathology, 12,
695–712.
DeBusk, R.F., Miller, N.H., Superko, H.R., Dennis, C.A., Thomas, R.J.,
Lew, H.T., Berger, W.E., III, Heller, R.S., Rompf, J., Gee, D.,
Kraemer, H.C., Bandura, A., Ghandour, G., Clark, M., Shah, R.V.,
Fisher, L., & Taylor, C.B. (1994). A case-management system for
coronary risk factor modification after acute myocardial infarction.
Annals of Internal Medicine, 120, 721–729.
Diamond, M.C. (1988). Enriching heredity. New York: Free Press.
Dobzhansky, T. (1972). Genetics and the diversity of behavior. Ameri-
can Psychologist, 27, 523–530.
Dongbo, F., McGowan, P., Yi-e, S., Lizhen, Z., Huiqin, Y., Jianguo, M.,
Shitai, Z., Yongming, D., & Zhihua, W. (2003). Implementation
and quantitative evaluation of chronic disease self-management
programme in Shanghai, China: Randomized controlled trial.
Bulletin of the World Health Organization, 81, 174–182.
Dreifus, C. (2005, May 10). How culture pushed us to the top of the food
chain. New York Times, p. D2.
Earley, P.C. (1993). East meets West meets Mideast: Further explora-
tions of collectivistic and individualistic work groups. Academy of
Management Journal, 36, 319–348.
Earley, P.C. (1994). Self or group? Cultural effects of training on self-
efficacy and performance. Administrative Science Quarterly, 39,
89–117.
Eccles, J. (1974). Cerebral activity and consciousness. In F.S. Ayala &
T. Dobzhansky (Eds.), Studies in the philosophy of biology: Re-
ductions and related problems (pp. 87–107). Berkeley: University
of California Press.
Elder, G. (1994). Time, human agency, and social change: Perspectives
on the life course. Social Psychology Quarterly, 57, 4–15.
Farah, M. (2002). Emerging ethical issues in neuroscience. Nature
Neuroscience, 5, 1123–1129.
Fausto-Sterling, A. (1992). Myths of gender: Biological theories about
women and men (2nd ed.). New York: Basic Books.
Freeman, M.A., & Bordia, P. (2001). Assessing alternative models of
individualism and collectivism: A confirmatory factor analysis.
European Journal of Personality, 15, 105–121.
Frese, M., Teng, E., & Cees, J. (1999). Helping to improve suggestion
systems: Psychological predictors of giving suggestions in a Dutch
company. Journal of Organizational Behavior, 20, 1139–1155.
Gardner, R., & Heider, K.G. (1969). Gardens of war: Life and death in
the New Guinea stone age. New York: Random House.
Gibson, C.B. (1995). Determinants and consequences of group-efficacy
beliefs in work organizations in U.S., Hong Kong, and Indonesia.
Unpublished doctoral dissertation, University of California,
Irvine.
178 Volume 1—Number 2
Psychology of Human Agency
Gjerde, P.F., & Onishi, M. (2000). Selves, cultures, and nations: The
psychological imagination of ‘the Japanese’ in the era of global-
ization. Human Development, 43, 216–226.
Gould, S.J. (1987). An urchin in the storm. New York: Norton.
Gowaty, P.A. (1997). Feminism and evolutionary biology. New York:
Chapman & Hall.
Gully, S.M., Incalcaterra, K.A., Joshi, A., & Beaubien, J.M. (2002).
A meta-analysis of team-efficacy, potency, and performance:
Interdependence and level of analysis as moderators of
observed relationships. Journal of Applied Psychology, 87, 819–
832.
Harré, R. (1983). Personal being: A theory for individual psychology.
Oxford, England: Blackwell.
Heckhausen, J. (1987). Balancing for weaknesses and challenging
developmental potential: A longitudinal study of mother-infant
dyads in apprenticeship interactions. Developmental Psychology,
23, 762–770.
Holden, G. (1991). The relationship of self-efficacy appraisals to sub-
sequent health related outcomes: A meta-analysis. Social Work in
Health Care, 16(1), 53–93.
Holden, G., Moncher, M.S., Schinke, S.P., & Barker, K.M. (1990). Self-
efficacy of children and adolescents: A meta-analysis. Psycho-
logical Reports, 66, 1044–1046.
Holman, H., & Lorig, K. (1992). Perceived self-efficacy in self-man-
agement of chronic disease. In R. Schwarzer (Ed.), Self-efficacy:
Thought control of action (pp. 305–323). Washington, DC: Hemi-
sphere.
Holton, R. (2000). Globalization’s cultural consequences. The ANNALS
of the American Academy of Political and Social Science, 570, 140–
152.
Johnson, D., & Johnson, R. (1985). Motivational processes in cooper-
ative, competitive, and individualistic learning situations. In C.
Ames & R. Ames (Eds.), Research on motivation in education: Vol.
2. The classroom milieu (pp. 249–277). New York: Academic
Press.
Joo, Y.J., Bong, M., & Choi, H.J. (2000). Self-efficacy for self-regulated
learning, academic self-efficacy, and Internet self-efficacy in web-
based instruction. Educational Technology Research & Develop-
ment, 48, 5–18.
Jorde-Bloom, P., & Ford, M. (1988). Factors influencing early childhood
administrators’ decisions regarding the adoption of computer
technology. Journal of Educational Computing Research, 4, 31–
47.
Kagan, J. (1981). The second year: The emergence of self-awareness.
Cambridge, MA: Harvard University Press.
Karniol, R. (1989). The role of manual manipulative stages in the in-
fant’s acquisition of perceived control over objects. Developmental
Review, 9, 205–233.
Keller, M., & Edelstein, W. (1993). The development of moral self from
childhood to adolescence. In G.G. Noam & T.G. Wren (Eds.), The
moral self (pp. 310–336). Cambridge, MA: MIT Press.
Kim, U., Triandis, H.D., Kâğitçibasi, C., Choi, S., & Yoon, G. (1994).
Individualism and collectivism: Theory, method, and applications.
Thousand Oaks, CA: Sage.
Kolb, B., & Whishaw, I.Q. (1998). Brain plasticity and behavior. Annual
Review of Psychology, 49, 43–64.
Korsgaard, C. (1989). Personal identity and the unity of agency: A
Kantian response to Parfit. Philosophy & Public Affairs, 18, 101–
132.
Korsgaard, C. (1996). The sources of normativity. Cambridge, England:
Cambridge University Press.
Lent, L. (1982). The perception of causality in infants. Perception, 11,
173–186.
Lent, R., Brown, S., & Hackett, G. (1994). Toward a unifying social
cognitive theory of career and academic interest, choice, and
performance. Journal of Vocational Behavior, 45, 79–122.
Lent, R., Brown, S., & Larkin, K. (1987). Comparison of three theo-
retically derived variables in predicting career and academic
behavior: Self-efficacy, interest congruence, and consequence
thinking. Journal of Counseling Psychology, 34, 293–298.
Lent, R., Brown, S., Nota, L., & Soresi, S. (2003). Testing social cog-
nitive interest and choice hypothesis across Holland types in
Italian high school students. Journal of Vocational Behavior, 62,
101–118.
Levy, R.I. (1969). On getting angry in the Society Islands. In W. Caudill
& T.-Y. Lin (Eds.), Mental health research in Asia and the Pacific
(pp. 358–380). Honolulu, HI: East-West Center Press.
Lewis, M., & Brooks-Gunn, J. (1979). Social cognition and the acqui-
sition of self. New York: Plenum.
Lorig, K.R., & Holman, H.R. (2003). Self-management education:
History, definition, outcomes, and mechanisms. Annals of Behav-
ioral Medicine, 26, 1–7.
Lorig, K.R., Hurwicz, M., Sobel, D., & Hobbs, M. (in press). A national
dissemination of an evidence based self-management program: A
translation study. Patient Education and Counseling.
Mandler, J. (1992). How to build a baby: II. Conceptual primitives.
Psychological Review, 99, 587–604.
Matsumoto, D., Kudoh, T., & Takeuchi, S. (1996). Changing patterns of
individualism and collectivism in the United States and Japan.
Culture & Psychology, 2, 77–107.
McAdams, D.P. (1996). Personality, modernity, and the storied self: A
contemporary framework for studying persons. Psychological In-
quiry, 7, 295–321.
McDonald, T., & Siegall, M. (1992). The effects of technological self-
efficacy and job focus on job performance, attitudes, and with-
drawal behaviors. The Journal of Psychology, 126, 465–475.
Meichenbaum, D. (1984). Teaching thinking: A cognitive-behavioral
perspective. In R. Glaser, S. Chipman, & J. Segal (Eds.), Thinking
and learning skills: Vol. 2. Research and open questions (pp. 407–
426). Hillsdale, NJ: Erlbaum.
Merton, R.K., & Barber, E. (2004). The travels and adventures of ser-
endipity. Princeton, NJ: Princeton University Press.
Millar, W.S. (1972). A study of operant conditioning under delayed
reinforcement in early infancy. Monographs of the Society for Re-
search in Child Development, 37(2, Serial No. 147).
Millar, W.S., & Schaffer, H.R. (1972). The influence of spatially dis-
placed feedback on infant operant conditioning. Journal of Ex-
perimental Child Psychology, 14, 442–453.
Moerk, E.L. (1995). Acquisition and transmission of pacifist mentalities
in Sweden. Peace and Conflict: Journal of Peace Psychology, 1,
291–307.
Moritz, S.E., Feltz, D.L., Fahrbach, K.R., & Mack, D.E. (2000). The
relation of self-efficacy measures to sport performance: A meta-
analytic review. Research Quarterly for Exercise and Sport, 71,
280–294.
Multon, K.D., Brown, S.D., & Lent, R.W. (1991). Relation of self-effi-
cacy beliefs to academic outcomes: A meta-analytic investigation.
Journal of Counseling Psychology, 38, 30–38.
Muñoz, R., & Mendelson, T. (2005). Toward evidence-based interven-
tions for diverse populations: The San Francisco General Hospital
prevention and treatment manuals. Journal of Consulting and
Clinical Psychology, 73, 790–799.
Volume 1—Number 2 179
Albert Bandura
Nagel, E. (1961). The structure of science. New York: Harcourt, Brace
and World.
Oliner, S.P., & Oliner, P.M. (1988). The altruistic personality. New York:
Free Press.
Ozer, E.M. (1995). The impact of childcare responsibility and self-ef-
ficacy on the psychological health of working mothers. Psychology
of Women Quarterly, 19, 315–336.
Pajares, F., & Schunk, D. (2001). Self-beliefs and school success: Self-
efficacy, self-concept, and school achievement. In R. Riding & S.
Rayner (Eds.), International perspectives on individual differences
(pp. 239–265). London: Ablex Publishing.
Papousek, H., & Papousek, M. (1979). Early ontogeny of human social
interaction: Its biological roots and social dimensions. In M. von
Cranach, K. Foppa, W. LePenies, & D. Ploog (Eds.), Human
ethology: Claims and limits of a new discipline (pp. 456–478).
Cambridge, England: Cambridge University Press.
Park, Y.S., Kim, U., Chung, K.S., Lee, S.M., Kwon, H.H., & Yang, K.M.
(2000). Causes and consequences of life-satisfaction among pri-
mary, junior high, senior high school students. Korean Journal of
Health Psychology, 5, 94–118.
Pastorelli, C., Caprara, G.V., Barbaranelli, C., Rola, J., Rozsa, S., &
Bandura, A. (2001). Structure of children’s perceived self-effica-
cy: A cross-national study. European Journal of Psychological
Assessment, 17, 87–97.
Reichard, G.A. (1938). Social life. In F. Boas (Ed.), General anthro-
pology (pp. 409–486). Boston: Heath.
Rogers, E.M., Vaughan, P.W., Swalehe, R.M.A., Rao, N., Svenkerud, P.,
& Sood, S. (1999). Effects of an entertainment-education radio
soap opera on family planning behavior in Tanzania. Studies in
Family Planning, 30, 1193–1211.
Rorty, A.O. (1993). What it takes to be good. In G. Noam & T.E. Wren
(Eds.), The moral self (pp. 28–55). Cambridge, MA: MIT Press.
Rosenholz, S.J., & Rosenholz, S.H. (1981). Classroom organization and
the perception of ability. Sociology of Education, 54, 132–140.
Sadri, G., & Robertson, I.T. (1993). Self-efficacy and work-related
behavior: A review and meta-analysis. Applied Psychology: An
International Review, 42, 139–152.
Schechtman, M. (1997). The brain/body problem. Philosophical Psy-
chology, 10, 149–164.
Schunk, D.H., & Zimmerman, B.J. (Eds.). (1994). Self-regulation of
learning and performance. Hillsdale, NJ: Erlbaum.
Searle, J.R. (2003). Rationality in action. Cambridge, MA: MIT Press.
Shapiro, S. (2003, December 7). The Dean connection. New York Times
Magazine, p. 56.
Shih, S., & Alexander, J.M. (2000). Interacting effects of goal setting
and self- or other-referenced feedback on children’s development
of self-efficacy and cognitive skill within the Taiwanese classroom.
Journal of Educational Psychology, 92, 536–543.
Shweder, R. (2003). Why do men barbeque? Recipes for cultural psy-
chology. Cambridge, MA: Harvard University Press.
Speirer, C., & Frese, M. (1997). Generalized self-efficacy as a mediator
and moderator between control and complexity at work and per-
sonal initiative: A longitudinal field study in East Germany. Hu-
man Performance, 10, 171–192.
Sperry, R.W. (1991). In defense of mentalism and emergent interaction.
The Journal of Mind and Behavior, 12, 221–245.
Sperry, R.W. (1993). The impact and promise of the cognitive revolu-
tion. American Psychologist, 48, 878–885.
Stagner, R. (1981). Training and experiences of some distin-
guished industrial psychologists. American Psychologist, 36, 497–
505.
Stajkovic, A.D., & Lee, D.S. (2001, August). A meta-analysis of the
relationship between collective efficacy and group performance.
Paper presented at the annual meeting of the National Academy of
Management, Washington, DC.
Stajkovic, A.D., & Luthans, F. (1998). Self-efficacy and work-related
performance: A meta-analysis. Psychological Bulletin, 124, 240–
261.
Staples, D.S., Hulland, J.S., & Higgins, C.A. (1999). A self-efficacy
theory explanation for the management of remote workers in vir-
tual organizations. Organization Science, 10, 758–776.
van Gulick, R. (2001). Reduction, emergence and other recent options
on the mind/body problem: A philosophic overview. Journal of
Consciousness Studies, 8, 1–34.
Vandello, J.A., & Cohen, D. (1999). Patterns of individualism and
collectivism across the United States. Journal of Personality and
Social Psychology, 77, 279–292.
Vaughan, P.W., Rogers, E.M., Singhal, A., & Swalehe, R.M. (2000).
Entertainment-education and HIV/AIDS prevention: A field ex-
periment in Tanzania. Journal of Health Communications, 5, 81–
100.
Watson, J.S. (1979). Perception of contingency as a determinant of
social responsiveness. In E.B. Thoman (Ed.), Origins of the infant’s
social responsiveness (Vol. 1, pp. 33–64). New York: Halsted.
Wilson, E.O. (1998). Consilience: The unity of knowledge. New York:
Knopf.
Yamagishi, T. (1988). The provision of a sanctioning system in the
United States and Japan. Social Psychology Quarterly, 51, 265–
271.
Zimmerman, B.J. (1989). A social cognitive view of self-regulated ac-
ademic learning. Journal of Educational Psychology, 81, 329–
339.
180 Volume 1—Number 2
Psychology of Human Agency