ORGANIZATIONAL BEHAVIOR AND HUMAN DECISION PROCESSES
Vol. 62,No. 3,June,pp. 286-299, 1995
Responses to Successful and Unsuccessful Performance: The Moderating Effect of Self-Efficacy on the Relationship between
Performance and Attributions
WILLIAM S. SILVER
University of Denver
AND
TERENCE R. MITCHELL AND MARILYN E. GIST
University of Washington
This paper reports on two experiments which explore how individuals with high and low self-efficacy differ in the way they interpret performance feedback and make causal attributions to sustain their selfefficacy perceptions for subsequent performance attempts. The results from Study 1 show that high selfefficacy people make self-serving attributions for unsuccessful performance, while low self-efficacy individuals make self-effacing attributions for unsuccessful performance. In Study 2, these attribution patterns were replicated and shown to combine with past performance, to account for 53% of the variance in subsequent self-efficacy. The implications for improving training interventions, and for understanding the causes of poor performance, are discussed. © 1995 Aca-
demic Press, Inc.
With the rapid pace of technological improvements in organizations, workers frequently are faced with the need to develop competencies at new tasks. This process can be frustrating because initial attempts to master new tasks often are not successful-new skills have to be learned, old skills have to applied in new ways, and many people fail at new tasks before they learn how to perform them well (Turnage, 1990). Workers may respond to this failure in different ways. Some
The Graduate Management Admissions Test questions used in this research are the copyrighted sole property of the Graduate Management Admission Council (GMAC). The test questions were not designed specifically for use in this study, and the GMAC bears no responsibility for the manner in which these questions were used. The authors would like to thank the GMAC for its permission to use these test items. Address correspondence and reprint requests to William S. Silver, Daniels College of Business, Department of Management, University of Denver, Denver, CO 80208.
workers may increase their efforts and develop new task strategies to better apply their skills. Other workers may despair of ever performing the task well and slacken their efforts. An important research need is to determine what factors are associated with these different responses to failure.
One variable that is critical in determining the direction of subsequent performance is an individual's self-efficacy-a person's belief in their capability to perform a particular task. From a social cognitive perspective, performance failure can reduce an individual's self-efficacy, which in turn is associated with lowered motivation and performance (Bandura, 1986). However, the effects of previous performance on selfefficacy also depends on the attributions that people make about the causes of their performance (Schunk, 1991). According to Bandura (1988), subjective weighing of attributional factors and appraisal of self-efficacy involve bidirectional causation. Self-beliefs of efficacy should influence causal attributions for performance, and these attributions should, in turn, affect subsequent self-efficacy appraisal. Self-efficacy will then be related to future motivation, performance, and causal attributions, creating tendencies to persist or give up (Gist & Mitchell, 1992).
Although many studies have demonstrated that selfefficacy influences performance in diverse settings (Gist & Mitchell, 1992), the relationship between selfefficacy and causal attributions has received little empirical attention (Mone & Baker, 1992). This paper reports on two experiments which explore the association between self-efficacy, causal attributions, and task performance. Study 1 addresses the question of whether differences in self-efficacy are related to the causal attributions people make for successful and unsuccessful
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SELF-EFFICACY AND CAUSAL A'ITRIBUTIONS 287
performance. Study 2 examines the role of past performance and attributions as determinants of subsequent self-efficacy. These relationships are depicted in Figure 1.
LITERATURE REVIEW
Research on Causal Attributions
Beginning with the work of Heider (1958), a central focus of attribution research has been to examine the ways in which people perceive the causes of their own behavior and performance. Weiner, Frieze, Kukla, Reed, Rest, and Rosenbaum (1972) demonstrated that in achievement-related contexts, the causes perceived as most responsible for success and failure are: (1) one's level of ability, (2) the amount of effort that was expended, (3) the magnitude and direction of experienced luck, and (4) the difficulty of the task. These causal ascriptions are arrayed along two attributional dimensions (locus of causality and stability) to allow comparisons between causes of performance in diverse contexts (e.g., Luginbuhl, Crowe, & Kahan, 1975; Weiner et al., 1972). Internal causes (ability, effort) are distinguished from external ones (task difficulty, luck), and stable causes (ability, task difficulty) are distinguished from unstable ones (effort, luck).
Some research with this framework has suggested that people attribute performance success, more than failure to internal and stable factors (e.g., I succeed becaus~ I'm skillful, I fail because of bad luck). However, reviews of the attribution literature offer conflicting evidence for the existence of this self-serving attributional pattern. Miller and Ross (1975) concluded that there is substantial support for the contention that individuals engage in self-enhancing attributions for successful events, but little evidence is available to suggest that individuals consistently utilize selfprotective attributions under conditions of failure. A recent review by Fiske and Taylor (1991) also suggests that "there is more evidence that people take credit for success-the self-enhancing bias-than that they deny responsibility for failure--the self-protective bias" (p. 79). In contrast, reviews by Bradley (1978) and Zuckerman (1979) indicated that self-serving effects of both success and failure are obtained in most experimental paradigms.
Study 1
Self-Etticocy -+- Performance _.. Attributions ,,,,...._ Self-Efficacy
Study 2
FIG. 1. Relationships investigated in Study 1 and Study 2.
The inconsistency of the evidence for self-serving attributions led to research on various individual difference variables as moderators of the different attribution patterns associated with successful and unsuccessful performance. For example, causal attributions have been examined in relation to self-esteem (Campbell & Fairey, 1985; Ickes & Layden, 1978), test anxiety (Arkin, Kolditz, & Kolditz, 1983; Arkin, Detchon, & Maruyama, 1982), personal problem solving (Baumgardner, Heppner, & Arkin, 1986), Type A & B individuals (Strube & Boland, 1986), and achievement motivation (Heckhausen, 1987; Weiner, 1985). Some of these studies of individual difference moderator variables have demonstrated different patterns of causal attributions for both successful and unsuccessful performance (e.g., Heckhausen, 1987; Feather, 1983; Ickes & Layden, 1978), whereas other studies have suggested that individual difference variables are associated with patterns of causal attributions only for unsuccessful performance, but not with attributions for successful performance (e.g., Campbell & Fairey, 1985; Zuckerman, 1979). In general these results suggest that people with low self-esteem, low achievement motivation, and high test anxiety internalize failure more than people who have the opposite attributes. The findings from this research led us to investigate the role of self-efficacy as a moderator of performance --t attribution relationships, especially under conditions of poor performance.
Self-Efficacy and Attributions
Self-efficacy is not a global personality trait which is stable across contexts, but rather a task-specific belief which may vary depending on the situation (Bandura, 1989). Whereas self-esteem is related to attributions only in situations where self-worth concerns are aroused, and test anxiety is related to attributions only in evaluation situations, self-efficacy should be related to attributions and performance on almost all tasks (Bandura, 1986). The lack of consistent findings from previous research on personality variables and patterns of causal attributions may be due to the fact that these personality variables are not relevant for performance in all situations.
In a continuation of this line of research, we have chosen to examine the relationship between selfefficacy and attributions under conditions of both successful and unsuccessful performance. No one to date has studied these relationships, and they are important to understand for a variety of reasons. First, selfefficacy is a good predictor of performance (e.g., Gist, Stevens, & Bavetta, 1991; Wood & Bandura, 1989). Understanding how attributions may influence this relationship will help to further the development of the theoretical network for self-efficacy. Second, a finding
288 SILVER, MITCHELL, AND GIST
that efficacy moderated the performance ~ attribution relationship would increase our understanding of the factors that are associated with responses to performance successes and failures, and may suggest ways to improve employee development and subsequent performance.
STUDY 1
In the first study, upper-level business students solved problems from a data sufficiency test (taken from the Graduate Management Admissions Test). Each person got some problems right and some wrong. Based upon the preceding discussion, the following hypotheses were investigated:
HYPOTHESIS 1. Self-efficacy will be related positively to internal and stable attributions for successful performance: The higher the self-efficacy, the more that self-enhancing attribution patterns will be evident.
HYPOTHESIS 2. Self-efficacy will be related negatively to internal and stable attributions for unsuccessful performance: The higher the self-efficacy, the more that self-protective attribution patterns will be evident.
Method
Since many of the materials and procedures were similar for both Studies 1 and 2, they are described fully for Study 1 and are referenced under Method in Study 2.
Participants
Participants were 68 undergraduate business students, in an upper-level business course, who volunteered to take part in the study for extra course credit. Of the sample, 53% was male; 4 7% was female. All of our analyses of attributions, self-efficacy, and performance showed no gender differences, so males and females were grouped together for tests of the hypotheses. The average amount of work experience was 3. 7 years.
Procedure
Participants were told that the study was designed to assess their performance on data sufficiency problems used for the Graduate Management Admissions Test (GMAT). They received information about various strategies that could be used for answering data sufficiency problems. Participants then completed a practice test consisting of three problems. After the practice test, they were given the answers to the test and written explanations for how to solve each problem. Next, participants filled out a self-efficacy measure for a test containing 10 data sufficiency problems. They then completed a 10-problem test, after which they received
answers and explanations for each problem. Finally, participants assessed their attributions for each problem they solved correctly, and for each problem solved incorrectly.
Measures
Data sufficiency problems. Data sufficiency questions are designed to measure one's ability to analyze a quantitative problem, to recognize which information is relevant, and to determine at what point there is sufficient information to solve the problem. All problems for this study were taken from The Official Guide for GMAT Review (Educational Testing Service, 1986) which contains problems used on actual GMATs. In order to provide subjects with the opportunity to make attributions for both successful and unsuccessful performance, the difficulty level of each problem selected for the present study was held constant (moderate difficulty)-based upon the percentage of previous testtakers who answered the problem correctly (using national norms). In the present sample the average number of problems correctly answered was 5 out of 10. Participants received a test packet containing each problem on a separate page and were allowed 2 min to solve each problem.
Self-efficacy. The self-efficacy measure asked subjects to indicate "yes" or "no" to whether or not they could perform at 10 different levels of proficiency. Proficiency levels were listed as the number of data sufficiency problems out of 10 that subjects thought they were capable of correctly solving. For each proficiency level for which they indicated "yes," participants also estimated their confidence about their present ability to perform at that proficiency level (rated 1 to 10: 1 = totally nonconfident, 5 = moderately confident, 10 = totally confident). A participant's self-efficacy score was computed by summing the confidence ratings across all levels of proficiency which were answered "yes." Self-efficacy scores could thus range from 0 to 100, with higher scores being indicative of higher selfefficacy. This procedure is the standard method for assessing self-efficacy and has been used previously by numerous researchers (e.g., Gist & Mitchell, 1992; Bandura, 1984).
Attribution measure. For problems they got right, participants divided 100 points among (a) ability, (b) effort, (c) good luck, and (d) task ease attributions. For problems they got wrong, participants divided 100 points among (a) lack of ability, (b) lack of effort, (c) bad luck, and (d) task difficulty attributions. Each of these eight attributions was defined and described in more detail on a cover page. A locus of causality attribution score was obtained by summing the attributions made to ability and effort, and subtracting the sum of the
SELF-EFFICACY AND CAUSAL ATIRIBUTIONS 289
attributions to luck and task difficulty. A stability attribution score was created by summing the attributions to ability and task difficulty, and subtracting the sum of the attributions to effort and luck. This procedure has been used previously by others (e.g., Chacko & McElroy, 1983) to derive attributional dimensions from specific performance causes. Attribution scores were averaged for each individual for the problems they got right (successful performance) and for the problems they got wrong (unsuccessful performance).
Three further points about this procedure need to be addressed. First, it should be noted that a positive locus of causality attribution score reflects predominantly internal attributions, whereas a negative score reflects mainly external attributions. Similarly, a positive stability attribution score indicates predominantly stable attributions, whereas a negative stability score indicates mainly unstable attributions. The zero point indicates neutrality in that internal (stable) and external (unstable) attributions are seen as equally important causes of performance. Second, deriving attributional dimensions by combining specific attributions avoids some of the problems associated with analyzing an ipsitive measure (Hicks, 1970). Third, although the locus of causality and stability attribution dimensions are not independent (for successful performance r == -.22,p < .10; for unsuccessful performance r == .28,p < . 05), the correlations leave a substantial proportion of variance unaccounted for, and therefore, were analyzed separately.
Results
The means, standard deviations, and intercorrelations between all Study 1 variables are contained in Table 1. It should be noted initially that self-efficacy was positively correlated with subsequent performance (r = .22, p < .05). People with high self-efficacy performed better than people with low self-efficacy as would be expected from previous research. One can
also note in Table 1 that the allocation of points to internal causes is significantly higher for success experiences than failure experiences, irrespective of selfefficacy (M = 41.13 vs 6.99, t = 3.32, p < .01). The same pattern of results is observed for the stability dimension (M = 55.66 vs 3.54, t = -3.14, p < .01). These results replicate the self-serving bias frequently reported in the literature.
Successful Performance
Hypothesis 1 predicted that self-efficacy will be related positively to internal and stable attributions for successful performance. The correlations show that self-efficacy was related positively to stable attributions for successful performance (r = .22, p < .05), but was unrelated to the locus of causality dimension, providing moderate support for Hypothesis 1.
Unsuccessful Performance
Hypothesis 2 predicted that self-efficacy will be related negatively to internal and stable attributions for unsuccessful performance. The correlation between self-efficacy and the locus of causality dimension was negative and significant (r = - .29, p < .01). The correlation between self-efficacy and the stability dimension was also negative and significant (r = -.36, p < .01) . These results support Hypothesis 2.
Examining the patterns of means for the attributions shows that under successful performance, there is very little difference between high and low selfefficacy subjects. However, for unsuccessful performance, these two groups differ substantially. High selfefficacy people attribute their poor performance more to bad luck than do low self-efficacy people (M = 43 vs 21, t = -3.57, p < .01). In contrast, low self-efficacy people attribute their poor performance more to lack of ability than do high self-efficacy people (M == 36 vs 21, t :::: 2.30, p < .01).
TABLE 1 Means, Standard Deviations, and Intercorrelations for Study 1 Variables
Variable M SD 1 2 3 4 5
1. Self-efficacy 45.64 23.67 2. Performance 4.75 2.08 .22*
Attributions for successful performance 3. Locus of causality 41.13 36.47 .01 .13 4. Stability 55.66 33.54 .22* .13 -.21
Attributions for unsuccessful performance 5. Locus of causality 6.99 48.94 -.29* .03 .32* -.24* 6. Stability 3.54 44.56 -.36** -.16 .04 .00 -.28*
* p < .05. ** p < .01.
290 SIL VER, MITCHELL, AND GIST
Regression Analyses
The preceding analyses do not rule out the possibility that real ability differences between subjects accounted for the observed relationships between selfefficacy and the attribution dimensions. Unfortunately, it is difficult to partial out the effects of ability from the effects of self-efficacy since both variables have simultaneous influences. However, test performance can be used as a measure which reflects ability, to determine if, within performance conditions, selfefficacy influences attributions beyond the influence of performance scores. To test this hypothesis, hierarchical multiple regression analyses were conducted for each of the attribution dimensions for successful and unsuccessful performance to which self-efficacy was related. Test performance (the number of problems answered correctly) was entered as the first predictor of the attribution dimensions followed by self-efficacy.
The results of the regression analyses are reported in Table 2. As shown in the table, test score was not related to the locus of causality dimension for unsuccessful performance or to the stability dimensions for successful and unsuccessful performance. However, selfefficacy explained a statistically significant proportion of the variance in each attribution dimension. These analyses suggest that the initial finding of relationships between self-efficacy and causal attribution dimensions can not be explained by actual ability differences as reflected by test scores.
Discussion
The results of this study demonstrate that, for unsuccessful performance, self-efficacy moderated the performance -t attribution relationship. This finding suggests that while high self-efficacy people make selfserving attributions (e.g., bad luck) under conditions of unsuccessful performance, low self-efficacy individuals
TABLE 2 Regression Analyses: Test Performance and Self-Efficacy
on Attributions
R2
Step Variable R ~ R2 change
Stability (successful performance) 1 Test score .14 -.15 .02 .02 2 Self-efficacy .29 .28 .08 .06
Stability (unsuccessful performance) 1 Test score .16 -.09 .03 .03 2 Self-efficacy .37 -.34 .14 .11
Locus of causality (unsuccessful performance) 1 Test score .03 .09 .00 .00 2 Self-efficacy .31 -.31 .09 -.09
* p < .05. ** p < .01.
F change
1.35 4.39*
1.80 8.49**
.06 6.62**
engage in self-effacing attributions (e.g., lack of ability) for unsuccessful performance.
Mixed support was received for the hypothesis that self-efficacy moderated the performance -t attribution relationship for successful performance. Specifically, it was found that while self-efficacy was related to stable attributions for successful performance, no relationship was observed between self-efficacy and the locus of causality attribution dimension. Thus, the pattern of findings in the present study is consistent with research demonstrating that it is in response to failure where individual differences exert the strongest influence on attributions (e.g., Heckhausen, 1987; Zuckerman, 1979).
The unique contribution of Study 1 was that it provides evidence for an aspect of self-efficacy theory that had not yet been empirically examined. Specifically, this study empirically supported the idea that selfefficacy moderates the performance -t attribution relationship, especially when performance is poor. In Study 2, the bidirectional relationship between selfefficacy and attributions is explored. That is, causal attributions are examined as both antecedents to, and consequences of, self-efficacy perceptions.
STUDY2
According to Social Cognitive Theory, failure on a task can reduce an individual's level of self-efficacy, which in turn is associated with lowered motivation and performance. However, the effects of previous performance on self-efficacy depend on the cognitive appraisal of that performance (Bandura, 1986). The results from Study 1 illustrate that high and low selfefficacy people have different interpretations of the causes of their performance. These causal attributions may influence people's subsequent perceptions of their performance capabilities (Gist & Mitchell, 1992). Gi~e.n the central role of self-efficacy in task performance, it is important to understand how self-efficacy beliefs a~e formed in the first place, and therefore, the focus ofth1s second study is to examine the role of past performance and attributions as antecedents and determinants of self-efficacy.
Past Performance --+ Self-Efficacy
In order to make a self-efficacy judgment, individuals rely on four broad principal sources of information (Bandura, 1986): (1) personal mastery experiences (e.g., past performance), (2) vicarious information (e.g., modeling), (3) persuasive information (e.g., social influence), and (4) arousal information based on physiological cues (e.g., mood). Of these information sources, past performance experiem;:e provides the most influential source of efficacy information (Gist & Mitchell,
SELF-EFFICACY AND CAUSAL ATTRIBUTIONS 291
1992). Performance success heightens self-beliefs of capability; failures create self-doubt which lower selfefficacy, especially if failures occur early in the course of events (Bandura, 1986). In support of these ideas, Locke, Frederick, Lee, and Bobko (1984) found that past performance was more strongly related to selfefficacy than were measures of ability or strategies used. Feltz (1982) found that past performance continued to be a key determinant of self-efficacy over multiple-task trials. These data suggest our first hypothesis.
HYPOTHESIS 1. Past performance will have a strong positive relationship with post-task self-efficacy.
Attributions~ Self-Efficacy
Self-beliefs of efficacy are not simply reflective imprints of past performance (Bandura, 1986). The impact of past performance on self-efficacy depends on the cognitive appraisal of perceived performance causes (Bandura, 1977). However, only a few studies have examined the effect of attributions on subsequent efficacy beliefs (e.g., Schunk & Gunn, 1986; Schunk & Rice, 1986; Schunk, 1984). The generalizability of the results from these studies is limited because the subjects were children, and attributions were only made to ability or effort causes. Other causes of performance are also important (e.g., luck and task difficulty), and all four causes can be interpreted in terms of their causal dimensions (e.g., locus of causality, stability). Furthermore, the effect of attributions on subsequent self-efficacy varies depending on whether the past performance is seen as a success or a failure (Bandura, 1977). Therefore, hypotheses are developed below for the impact of causal attribution dimensions on selfefficacy, under conditions of successful or unsuccessful past performance.
Successful Performance
Bandura (1977) has hypothesized that successful performances which are perceived as resulting from internal causes rather than from fortuitous situational circumstances are likely to enhance self-efficacy. In addition, if successful performance is ascribed to a stable cause, then that outcome will be anticipated with an increased probability in the future, and self-efficacy will increase. For example, Schunk (1984) reported that both effort and ability attributions for success led to motivational increases, and that ability attributions resulted in subsequent higher levels of self-efficacy and performance.
HYPOTHESIS 2. Internal and stable attributions for successful performance will be related positively to post-task self-efficacy.
Unsuccessful Performance
Bandura (1986) has also hypothesized that failures should lead to reductions in self-efficacy when attributed to lack of ability rather than to task difficulty or bad luck. Indirect tests of this idea have been conducted. For example, Anderson (1983) used persuasion to suggest to subjects that if they failed at the criterion task (i.e., trying to solicit blood from donors), the failure was caused by unstable (insufficient effort, poor soliciting strategy) as opposed to stable (lack of ability) causes. Those subjects who were led to believe that failure was determined by unstable causes had higher expectancies of subsequent success than subjects who attributed their performance to stable causes. Also, Wilson and Linville (1985) gave college freshman information suggesting that the causes of low grades were unstable. Compared with a control group (who held beliefs suggesting more stable causes of failure), the students in the experimental group expected to have higher grade point averages in the long run. These studies suggest the following hypothesis:
HYPOTHESIS 3. Internal and stable attributions for unsuccessful performance will be related negatively to post-task self-efficacy.
Self-Efficacy ~ Attributions
In Study 1 it was demonstrated that (1) self-efficacy was related negatively to internal and stable attributions for failure, and (2) self-efficacy was related positively to stable attributions for successful performance but not to internal attributions. The way in which selfefficacy and attributions were measured in Study 1 may have contributed to this pattern of results. Recall that for the self-efficacy judgment, subjects indicated their capability to attain various levels of performance on the entire test. However, they were asked to make attributions about the success or failure of each individual problem, and these attributions were averaged for problems that were correct and those that were incorrect. Thus self-efficacy and attributions were assessed at different levels, which may have weakened their relationship to each other. Furthermore, selfefficacy was assessed after only three practice problems. Because the task was unfamiliar, self-efficacy perceptions may not have been stable, and may not have exerted a consistent influence on attributions across problems. In Study 2, these measurement issues will be addressed and the hypotheses will be reexamined.
HYPOTHESIS 4. Self-efficacy will be related positively to internal and stable attributions for successful performance.
HYPOTHESIS 5. Self-efficacy will be related negatively to internal and stable attributions for unsuccessful performance.
292 SILVER, MITCHELL, AND GIST
Method
Participants
The participants were 103 undergraduate business students in an upper-level business course. The sample consisted of 52 male and 51 female students. All of our analyses of attributions, self-efficacy, and performance showed no gender differences, so males and females were grouped together for tests of the hypotheses. The average amount of work experience was 4.3 years.
Procedure
The procedure was similar to Study 1. Participants received instructions, completed some practice items, got feedback, and filled out an efficacy measure. They then completed the test, received performance feedback, made attributions, and estimated their efficacy for a subsequent problem set.
To address the methodological concerns from Study 1, some changes were made in the measures and procedures for the present study. First, the practice test contained six problems, rather than three. This change was made so that participants would have more information on which to base their initial self-efficacy judgments. Second, the attribution measures were designed so that people would be making attributions for their performance on the entire test, and not for each individual problem. This change allowed self-efficacy and attributions to be assessed at the same level, and is more representative of the attributional process people go through when interpreting their test performance.
A third change in the present study concerned the way in which the data sufficiency tests were administered. Participants were allowed to answer the problems in any order they chose, and could spend as little or as much time as they wanted (within the confines of the time limit for the test) on each problem. Because attributions were to be assessed for the entire test and not for each individual problem, it was not necessary to ensure that subjects spent equal amounts of time answering each problem. A final change was that participants were given only 12112 min to complete the test rather than the 20 min given them in Study 1. This change was made to keep the average time per problem (i.e., 75 s) consistent with what it would be on the GMAT.
Measures
Data sufficiency tests. As in Study 1, all problems on the data sufficiency tests were taken from The Official Guide for GMAT Review (ETS, 1986). To help keep the difficulty level of the pretest and the experimental test equivalent, problems were matched ac-
cording to the number of people who correctly answered them, based upon data collected in a pilot study (n = 19). Participants were given 7112 min to complete the practice data sufficiency test and 12V2 min for the experimental test.
Self-efficacy. Perceived self-efficacy was measured twice (before and after the test) with the same measure used in Study 1. The test-retest reliability for this selfefficacy measure was r = .82 (p < .01).
Attributions. To facilitate generalizations across contexts, causal attributions such as ability, effort, etc., are usually discussed with respect to where they fall on various causal dimensions (i.e., locus of causality, stability). However, there is some debate over the best way to measure these dimensions. In most attribution studies, the researcher assigns the causal attributions to causal dimensions based on the theoretical meaning of the causal attributions. For example, effort and ability are classified as internal attributions. This procedure assumes that the theoretical meaning of different causal attributions is consistent with the meaning inferred by the person who is making the causal attributions. But Weiner (1983, 1979) has noted that the meaning of the same attribution may vary between different persons and different contexts.
To offset this problem, Russell ( 1982) has suggested that causal dimensions should be measured directly. He has developed the Causal Dimension Scale (CDS) for this purpose and Russell, McAuley, and Tarico (1987) have suggested that the CDS is more strongly related to most theoretical outcomes than is an indirect measure of causal dimensions derived from causal attributions. Accordingly, both direct (i.e., CDS) and indirect (i.e., derived dimensions) methods of assessing causal dimensions were used in the present study:
1. Derived Dimensions-Based upon their test score, participants were divided into successful and unsuccessful performers (six correct problems and above = successful performance, five correct problems and below= unsuccessful performance). This cutoff point was selected because the average number of correct answers was between five and six for 19 subjects who participated in a pilot study. In the present study, participants also were given normative data indicating a "typical" distribution of test scores, before taking the first data sufficiency test, and were told that a score of 6 was considered a "passing" score. This procedure was necessary to facilitate consistency across subjects in their evaluations of their test performance, since the meaning of attributions is contingent on people's perceptions of how successful or unsuccessful their performance was.
Two items were used to assess performance perceptions. Participants rated their performance on a 7-
SELF-EFFICACY AND CAUSAL ATIRIBUTIONS 293
point Likert scale (1 = poor, 4 = average, 7 = excellent). Participants also evaluated how successfully they performed ( 1 = unsuccessful, 4 = average, 7 = successful). These two questions were combined to form a composite score, which was used to test whether subjects' perceptions of what constituted successful performance was consistent with our description. The interitem correlation for this measure was r = .93 (p < .01).
Successful performers evaluated the extent to which ability, effort, good luck, and test ease were important in contributing to their successful performance. Unsuccessful performers evaluated the extent to which lack of ability, lack of effort, bad luck, and task difficulty contributed to their unsuccessful performance. Responses for each cause were made on a 5-point Likert scale ranging from 1 = unimportant to 5 = important. Scores were derived for the locus of causality dimension by summing the attributions made to ability and effort and subtracting the sum of the attributions to luck and task difficulty. Scores were derived for the stability dimension by summing the attributions to ability and task difficulty and subtracting the sum of the attributions to effort and luck.
2. Causal Dimension Scale-The Causal Dimension Scale (Russell, 1982) was used to assess directly how participants perceived the cause of their performance in terms of the locus of causality and stability dimensions described by Weiner (1985, 1979). Participants first selected the most important cause of their performance from among the four causal attributions (i.e., ability, effort, good luck, and test ease for successful performance; lack of ability, lack of effort, bad luck, and task difficulty for unsuccessful performance). They then evaluated this attribution on six semantic differential scales, with three of the scales assessing each of the causal dimensions. For the locus of causality dimension the three scales were: ( 1) reflects an aspect of yourself-reflects an aspect of the situation, (2) inside of you-outside of you, and (3) something about yousomething about others. For the stability dimension the three scales were: (1) permanent-temporary, (2) stable over time-variable over time, and (3) unchanging-changing. To evaluate the reliability of the Causal Dimension Scale, coefficient alphas were computed for each subscale. For the locus of causality dimension, a = . 75; for the stability dimension, a = .83. Thus, consistent with previous studies (Russell et al., 1987; Russell, 1982), the reliability estimates for the locus of causality and stability subscales indicated adequate levels of internal consistency.
Since both the Causal Dimension Scale and the derived attribution dimension measure assessed the same attributional dimensions, it was expected that they would be positively correlated for both the locus of
causality and the stability dimensions. Correlations between the measures were significant for the locus of causality dimension (r = .61, p < .01 for successful performance; r = .37, p < .01 for unsuccessful performance). However, for the stability dimension, these correlations did not reach statistical significance (r = .29, p = ns for successful performance; r = .20, p = ns for unsuccessful performance).
Results
Again we should note that self-efficacy was positively correlated with performance (r = .42, p < .01). In addition, the locus of causality dimension was significantly higher for successful performance than for unsuccessful performance using the derived dimensions (t = 3.35,p < .01) or the Causal Dimension Scale (t = 3.20, p < .01). People who performed well made more internal attributions than people who performed poorly. Thus, both Studies 1 and 2 indicate significant efficacy-performance relationships, and self-serving biases.
Past Performance
In order to test the first hypothesis that past performance will have a positive relationship with post-task self-efficacy, a Pearson product-moment correlation between test performance and subsequent self-efficacy was computed. The correlation was significant and in the hypothesized direction (r = .63, p < .01). Thus Hypothesis 1 was supported.
Attributions
In the present study, participants were split into successful (n = 37) and unsuccessful (n = 66) performers based upon their test score. While we recognize that this procedure results in a loss of power, we feel it was necessary for three reasons. First, attribution ratings were made based upon selection into a category of performance, and not on the numerical performance score. This is more consistent with the actual attributional process where people's perceptions of the success of their performance (based upon normative information, goals, incentives, etc.) drives causal interpretations of their performance. That is, people use labels or categories (such as success or failure) as guides to making attributions, rather than a specific performance score. Second, people evaluated different attributions depending upon whether or not their performance was successful. For example, successful performers evaluated the extent to which their ability for data sufficiency problems influenced their test score, whereas unsuccessful performers evaluated the extent to which their lack of ability influenced their test score. The more detailed descriptions of these causes were differ-
294 SIL VER, MITCHELL, AND GIST
ent as well. Third, within performance categories, selfefficacy was allowed to range freely. Any restriction in self-efficacy variance due to performance groupings should reduce the strength of the relationships under investigation and make it more difficult to find significant results. Thus, grouping in this manner seems to us to be conceptually appropriate and a conservative test of the hypotheses.
To determine the adequacy of the successful/unsuccessful performance manipulation, one-way analyses of variance were conducted between successful and unsuccessful performers on their perception of the success of their performance. The results demonstrate that successful performers viewed their test scores as more successful than did unsuccessful performers [M = 4.4 vs 2.2; F(l,101) = 85.25, p < .01) and suggest that subjects viewed the success of their performance in a manner that was congruent with the attributions they were asked to assess.
Successful performers. The means, standard deviations, and intercorrelations of the antecedents of selfefficacy for successful performers are shown in Table 3. Hypothesis 2 predicted that internal and stable attributions for successful performers will be related positively to post-task self-efficacy. Table 3 shows that the correlations between the locus of causality dimension and self-efficacy were positive and significant both for the Causal Dimension Scale (r = .52) and for the derived dimension measure (r = .46). The correlations between the stability dimension measures and selfefficacy also were positive (r = .24 and r = .26), but the magnitude was not sufficient to achieve statistical significance. Thus Hypothesis 2 was supported only for the locus of causality dimension. The correlations
between the individual causal attributions and selfefficacy show that peoples' evaluations of the importance of ability (stable, internal) as a cause of successful performance were related positively to their posttask level of self-efficacy. In addition, attributions to good luck (unstable, external) as a cause of successful performance were related negatively to post-task selfefficacy judgments.
Unsuccessful performers. The means, standard deviations, and intercorrelations of antecedents of selfefficacy for unsuccessful performers are shown in Table 4. Hypothesis 3 predicted that internal and stable attributions for unsuccessful performers will be related negatively to post-task self-efficacy. Table 4 shows that the correlations between the locus of causality dimension and self-efficacy were significant and in the hypothesized negative direction for both the Causal Dimension Scale (r = - .28) and for the derived dimension measure (r = - .32). The correlation between the stability dimension and subsequent self-efficacy was also negative and significant, but only for the derived attribution measure (r = - .46). Thus Hypothesis 3 was supported when the derived dimension measure was used to assess attributions. The correlations between the individual causal attributions and self-efficacy show that the more people believed that their lack of ability or the difficulty of the task were causes of their unsuccessful performance, the lower their post-task self-efficacy.
Regression Analyses
To determine the proportion of variance in post-task self-efficacy accounted for by past performance and at-
TABLE3 Means, Standard Deviations, and lntercorrelations: Antecedents of Self-Efficacy (Successful Performance)
Variable M SD 1 2 3 4 5 6 7 8 9
1. Test performance 6.9 1.02
Causal attributions 2. Ability 4.0 0.78 .35* 3. Effort 3.3 0.99 .25 .18 4. Good luck 1.9 1.08 -.16 -.53** -.09 5. Task ease 3.0 1.00 .25 .25 .00 -.03
Derived dimensions 6. Locus of causality 2.3 2.16 .24 .59** .57** -.72** -.36* 7. Stability 1.8 2.15 .17 .66** -.35* -.66** .57** .15
CDS 8. Locus of causality 7.2 1.26 .27 .57** .22 -.63** .02 .61** .43** 9. Stability 6.8 1.59 .27 .44** .03 -.44** -.15 .46** .29 .55**
10. Self-efficacy 62.4 16.34 .61** .43** .32 -.47** .01 .52** .24 .46** .26
* p < .05. ** p < .01.
SELF-EFFICACY AND CAUSAL A'ITRIBUTIONS 295
TABLE 4 Means, Standard Deviations, and Intercorrelations: Antecedents of Self-Efficacy (Unsuccessful Performance)
Variable M SD 1 2
1. Test performance 3.6 1.25
Causal attributions 2. Lack of ability 3.0 1.29 -.47** 3. Lack of effort 3.1 1.20 -.08 -.16 4. Bad luck 1.7 1.00 -.09 -.14 5. Task difficulty 3.2 1.08 -.27* .34**
Derived dimensions 6. Locus of causality 1.2 2.28 -.14 .38** 7. Stability 1.5 2.59 -.27** .77**
CDS 8. Locus of causality 5.9 1.59 -.16 .27* 9. Stability 5.8 1.28 .14 .09
10. Self-efficacy 49.9 18.9 .53** -.62**
* p < .05. ** p < .01.
tributions, hierarchical multiple regression analyses were performed separately for successful and unsuccessful performance. Test performance was entered as the first antecedent since it has temporal precedence over attributions. Also, it was important to determine if attributions could explain variance in self-efficacy beyond that accounted for by past performance. The attribution dimensions were then entered using stepwise selection procedures. The derived dimension measure of attributions was used since it had the strongest relationship with self-efficacy across performance conditions. The results of the regression analyses are summarized in Table 5. For successful performance, the total variance in post-task self-efficacy that was accounted fol· jointly by past performance and attributions was 53%. Note also that the locus of causality dimension added unique predictive variance in selfefficacy beyond that accounted for by past performance. For unsuccessful performers, past performance and attributions jointly accounted for 44% of the variance in post-task self-efficacy. Both the locus of causal-
TABLE 5 Regression Analyses: Antecedents of Self-Efficacy
Step
1 2
1 2 3
Variable R n2 Successful performance
Test performance .61 .59 .37 Locus of causality .72 .93 .53
Unsuccessful performance Test performance .53 .48 .28 Stability .63 -.34 .39 Locus of causality .66 .19 .44
** p < .01.
R2 F change Change
.37 18.68**
.16 10.26**
.28 25.17**
.11 11.27**
.05 5.25**
3 4 5 6 7 8 9
-.12 .12 .19
.55** -.67** -.43** -.55** -.32 .57** .01
.14 -.18 -.14 .37** .09 -.25* .20 .28* -.30** .20 .07
.01 .12 -.25* -.28* -.46** -.32** .07
ity and stability dimensions added unique predictive variance in self-efficacy beyond that accounted for by past performance. These results suggest that selfefficacy judgments are not based only upon the level of past performance, but also upon people's perceptions of the causes of their previous performance.
Self-efficacy --? Attributions
Successful Performance
Hypothesis 4 predicted that self-efficacy would be related positively to internal and stable attributions for successful performance. The results show that the correlations between self-efficacy and the locus of causality dimension were positive and significant for both the derived attribution measure (r = .34, p < .05) and the Causal Dimension Scale (r = .44, p < .01). People with high self-efficacy attributed their good performance more to ability and effort than did people with low self-efficacy. However, although the correlations between self-efficacy and the stability dimension also were positive, they were not significant. Thus, hypothesis 4 was supported only for the locus of causality dimension.
Unsuccessful Performance
Hypothesis 5 predicted that self-efficacy would be related negatively to internal and stable attributions for unsuccessful performance. The results show that when the attributions are assessed by the derived attribution dimension measure, the correlation between selfefficacy and the stability dimension was negative and significant (r = -.36, p < .01). The correlation between self-efficacy and the locus of causality was also nega-
296 SILVER, MITCHELL, AND GIST
tive (r = - .17), but the magnitude was not sufficient to achieve statistical significance. In contrast, when attributions are assessed by the Causal Dimension Scale, the correlation between self-efficacy and the locus of causality dimension was negative and significant (r = - .25, p < .05), but the correlation between self-efficacy and the stability dimension was not. Thus there is only moderate support for Hypothesis 5. The correlations between self-efficacy and the attributions for poor performance show that efficacy was negatively related to ability (r = - .49, p < .01) and task difficulty attributions (r= -.27,p < .05). The higherthe efficacy, the less that failure was attributed to a lack of ability or a difficult task. These findings are basically consistent with the findings of Study 1.
DISCUSSION
The findings from this research clearly demonstrate that self-efficacy both causes and is caused by performance experiences. Efficacy was significantly related to performance, and performance was related to posttask self-efficacy. In addition, both studies highlight the significance of how individuals interpret the causes of their performance. High versus low efficacy beliefs result in different attributions for performance, and these attributions are related to subsequent estimates of efficacy. Successful performance that is attributed to internal factors raises individuals' self-beliefs of efficacy. Unsuccessful performance that is attributed to internal and stable factors lowers individuals' self-efficacy. The magnitude of the variance in posttask self-efficacy that was explained by past performance and attributions (53% for successful performance, 44% for unsuccessful performance) speaks to the importance of these variables as determinants of self-efficacy.
Several features of this study contribute to its internal and external validity. First, multiple sets of propositions from self-efficacy theory were examined in multiple studies using different subjects and slightly different measures and procedures. Second, both antecedents and consequences of self-efficacy were examined. This is consistent with the notion of reciprocal causation which is central to social cognitive theory (Bandura, 1986). Third, the participants (business students) were the appropriate sample for the experimental task (GMAT data sufficiency problems). This type of match is often missing in laboratory studies on attribution theory. Fourth, the procedures used in Study 2 are realistic in the sense that participants could work continuously without interruption, that the time allotted was consistent with actual data sufficiency exams, and that attributions were made for success or failure on the entire test.
Research Implications
Self-efficacy. The results of both studies clearly showed that: (1) attributions for past performance differed as a result of one's efficacy and, (2) these attributions were predictors of subsequent self-efficacy. However, the strength of these relationships varied as a result of whether the performance was successful or unsuccessful and as a result of the type of measure used. More work is needed to address the role of attributions in the efficacy-performance relationship. Of particular interest would be an examination of whether attributions make more of a contribution to the relationship during the early learning of a task, than when the task is well learned. Our hypothesis would be that as a task becomes well learned, past performance becomes more diagnostic as a predictor of future efficacy and performance, because attributions are stabilized and thought about less frequently.
In addition, the assessment of attributions merits further empirical examination. This suggestion is underscored by the finding that different measures of the same attributional dimension were not correlated highly with each other. Simple one-word attributions (i.e., ability) may not capture the complexity with which people perceive the causes of their own performance. Furthermore, one-item measures of these attributions are of unknown reliability and validity. Additional work is needed to develop attributional measures that focus on personal, behavioral, and environmental causes of performance.
Finally, one explanation for the different pattern of results for successful performance may be that people may make fewer discriminations among causes for successful performance than they do among causes for unsuccessful performance (Peterson & Seligman, 1987). Individuals typically do not spend as much time considering the causes of good events, and are less articulate in rating them (Scott, Osgood, & Peterson, 1979; Langer, 1978). This explanation needs to be explored further.
Managerial Implications
Poor performance. The social cognitive view suggests that strong beliefs of efficacy enable people to apply the motivational and cognitive resources needed for successful task performance (Bandura, 1986). The present research suggests that by making external and unstable attributions, individuals with high selfefficacy interpret negative performance feedback in a way that enables them to sustain their strong selfbeliefs of efficacy.
On the other hand, by making internal and stable attributions for poor performance, people with low self-
SELF-EFFICACY AND CAUSAL ATTRIBUTIONS 297
efficacy may fall into exacerbation cycles that result in consistently low levels of performance (Storms & McCaul, 1976). By attributing poor performance to a lack of ability, they are less likely to persist at the task, and as a result, the poor performance becomes more extreme and more strongly attributed to internal and stable factors. Further research is needed, over repeated performance trials, on the mechanisms involved in exacerbation cycles.
Attribution training. Research on interventions designed to impact the patterns of attributions made by individuals (e.g., Forsterling, 1985) suggests ways to maintain high levels of efficacy. Rather than allowing the attributions for performance inferred by trainees to be a passive consequence of a model's behavior, individuals could be given information that explicitly suggests unsuccessful performance is not due to a lack of ability. For example, Brockner and Guare (1983) demonstrated that the performance of low self-esteem individuals can be improved to the extent that they are led to attribute their prior failure to the difficulty of the task, rather than to their own personal inadequacy. Wilson and Linville (1985) found that college freshmen given information suggesting that the causes of low grades are unstable subsequently had better academic performance.
It is important to emphasize that the implication is not that individuals with low self-efficacy should be trained to indiscriminately attribute all of their unsuccessful performance to nonability factors. Rather, the suggestion is that low self-efficacy individuals should be made aware that inaccurate attributions to ability factors may cause them unnecessary anxiety and loss of motivation, both of which may impair performance. The emphasis should be on training people to accurately diagnose the causes of past performance so that subsequent performance can be improved. Thus, attributional training programs may be improved if they focus on the process of making attributions (i.e., teaching individuals how to accurately diagnose performance), rather than on the content of attributions.
Feedback. To facilitate the development of strong efficacy beliefs, managers should be careful about the provision of negative feedback. Destructive criticism by managers which attributes the cause of poor performance to internal factors reduces both the beliefs of self-efficacy and the self-set goals of recipients (Barron, 1990, 1988). Managers should encourage people who are performing poorly to exert more effort, or to develop better strategies. If an ability deficit is the primary cause of poor performance, managers should encourage their subordinates to learn from their mistakes. While the effect of a single statement is not likely to exert much influence on self-efficacy beliefs, the patterns of
verbal information given over time will impact people's perceptions of their capabilities (Bandura, 1986).
After successful performance, the provision of positive feedback can be used to enhance subordinates' self-efficacy beliefs. Managers can help subordinates cognitively process success experiences in a way that maximizes their impact on self-efficacy beliefs. For example, subordinates should be encouraged to evaluate success against past performance in similar situations. Comparisons with other people, with behavior in other settings, or with distal goals provide less satisfying anchor points for assessing performance improvements (Kanfer & Gaelick, 1986). Employees should also be encouraged to attribute success to their stable, internal qualities. This can be done by focusing performance feedback discussions on the ways in which subordinates' behavior directly led to success, by initiating these discussions frequently, and by using objective indexes of performance improvements (e.g., production statistics, sales records, etc.). Such discussions are likely to cause affective reactions which will facilitate self-focused attention (Salovey, 1992). Mood and emotion may thus become part of the chain of selfregulatory actions which sustain performance in the long run (Weiner, 1985).
CONCLUSION
The data from Study 1 and Study 2 clearly show that performance, self-efficacy, and attributions are all interrelated. The understanding of these complex relationships is important for the development of feedback and training interventions that will enhance motivation and persistence, and develop strategies for coping with failure (Ilgen, Major, & Tower, in press). These are important issues for both self-development and organizational performance.
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