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External validity

external validity, external validity vs internal validity
External validity is the validity of generalized causal inferences in scientific research, usually based on experiments as experimental validity In other words, it is the extent to which the results of a study can be generalized to other situations and to other people Mathematical analysis of external validity concerns a determination of whether generalization across heterogeneous populations is feasible, and devising statistical and computational methods that produce valid generalizations


  • 1 Threats to external validity
  • 2 Disarming threats to external validity
  • 3 Examples
  • 4 External, internal, and ecological validity
  • 5 Qualitative research
  • 6 External validity in experiments
    • 61 Generalizability across situations
    • 62 Generalizability across people
    • 63 Replications
  • 7 The basic dilemma of the social psychologist
  • 8 See also
  • 9 Notes

Threats to external validity

"A threat to external validity is an explanation of how you might be wrong in making a generalization" Generally, generalizability is limited when the cause ie the independent variable depends on other factors; therefore, all threats to external validity interact with the independent variable - a so-called background factor x treatment interaction

  • Aptitude–treatment Interaction: The sample may have certain features that may interact with the independent variable, limiting generalizability For example, inferences based on comparative psychotherapy studies often employ specific samples eg volunteers, highly depressed, no comorbidity If psychotherapy is found effective for these sample patients, will it also be effective for non-volunteers or the mildly depressed or patients with concurrent other disorders
  • Situation: All situational specifics eg treatment conditions, time, location, lighting, noise, treatment administration, investigator, timing, scope and extent of measurement, etc etc of a study potentially limit generalizability
  • Pre-test effects: If cause-effect relationships can only be found when pre-tests are carried out, then this also limits the generality of the findings
  • Post-test effects: If cause-effect relationships can only be found when post-tests are carried out, then this also limits the generality of the findings
  • Reactivity placebo, novelty, and Hawthorne effects: If cause-effect relationships are found they might not be generalizable to other settings or situations if the effects found only occurred as an effect of studying the situation
  • Rosenthal effects: Higher expectations may lead to better performance

Cook and Campbell made the crucial distinction between generalizing to some population and generalizing across subpopulations defined by different levels of some background factor Lynch has argued that it is almost never possible to generalize to meaningful populations except as a snapshot of history, but it is possible to test the degree to which the effect of some cause on some dependent variable generalizes across subpopulations that vary in some background factor That requires a test of whether the treatment effect being investigated is moderated by interactions with one or more background factors

Disarming threats to external validity

Whereas enumerating threats to validity may help researchers avoid unwarranted generalizations, many of those threats can be disarmed, or neutralized in a systematic way, so as to enable a valid generalization Specifically, experimental findings from one population can be "re-processed", or "re-calibrated" so as to circumvent population differences and produce valid generalizations in a second population, where experiments cannot be performed Pearl and Bareinboim classified generalization problems into two categories: 1 those that lend themselves to valid re-calibration, and 2 those where external validity is theoretically impossible Using graph-based calculus, they derived a necessary and sufficient condition for a problem instance to enable a valid generalization, and devised algorithms that automatically produce the needed re-calibration, whenever such exists This reduces the external validity problem to an exercise in graph theory, and has led some philosophers to conclude that the problem is now solved

An important variant of the external validity problem deals with selection bias, also known as sampling bias— that is, bias created when studies are conducted on non-representative samples of the intended population For example, if a clinical trial is conducted on college students, an investigator may wish to know whether the results generalize to the entire population, where attributes such as age, education, and income differ substantially from those of a typical student The graph-based method of Bareinboim and Pearl identifies conditions under which sample selection bias can be circumvented and, when these conditions are met, the method constructs an unbiased estimator of the average causal effect in the entire population The main difference between generalization from improperly sampled studies and generalization across disparate populations lies in the fact that disparities among populations are usually caused by preexisting factors, such as age or ethnicity, whereas selection bias is often caused by post-treatment conditions, for example, patients dropping out of the study, or patients selected by severity of injury When selection is governed by post-treatment factors, unconventional re-calibration methods are required to ensure bias-free estimation, and these methods are readily obtained from the problem's graph


If age is judged to be a major factor causing treatment effect to vary from individual to individual, then age differences between the sampled students and the general population would lead to a biased estimate of the average treatment effect in that population Such bias can be corrected though by a simple re-weighing procedure: We take the age-specific effect in the student subpopulation and compute its average using the age distribution in the general population This would give us an unbiased estimate of the average treatment effect in the population

If, on the other hand, the relevant factor that distinguishes the study sample from the general population is in itself affected by the treatment, then a different re-weighing scheme need be invoked Calling this factor Z, we again average the z-specific effect of X on Y in the experimental sample, but now we weigh it by the "causal effect" of X on Z In other words, the new weight is the proportion of units attaining level Z=z had treatment X=x been administered to the entire population This interventional probability, often written P Z = z | d o X = x , can sometimes be estimated from observational studies in the general population

A typical example of this nature occurs when Z is a mediator between the treatment and outcome, For instance, the treatment may be a cholesterol- reducing drug, Z may be cholesterol level, and Y life expectancy Here, Z is both affected by the treatment and a major factor in determining the outcome, Y Suppose that subjects selected for the experimental study tend to have higher cholesterol levels than is typical in the general population To estimate the average effect of the drug on survival in the entire population, we first compute the z-specific treatment effect in the experimental study, and then average it using P Z = z | d o X = x as a weighting function The estimate obtained will be bias-free even when Z and Y are confounded — that is, when there is an unmeasured common factor that affects both Z and Y

The precise conditions ensuring the validity of this and other weighting schemes are formulated in Bareinboim and Pearl, 2016 and Bareinboim et al, 2014

External, internal, and ecological validity

In many studies and research designs, there may be a "trade-off" between internal validity and external validity: When measures are taken or procedures implemented aiming at increasing the chance for higher degrees of internal validity, these measures may also limit the generalizability of the findings This situation has led many researchers call for "ecologically valid" experiments By that they mean that experimental procedures should resemble "real-world" conditions They criticize the lack of ecological validity in many laboratory-based studies with a focus on artificially controlled and constricted environments Some researchers think external validity and ecological validity are closely related in the sense that causal inferences based on ecologically valid research designs often allow for higher degrees of generalizability than those obtained in an artificially produced lab environment However, this again relates to the distinction between generalizing to some population closely related to concerns about ecological validity and generalizing across subpopulations that differ on some background factor Some findings produced in ecologically valid research settings may hardly be generalizable, and some findings produced in highly controlled settings may claim near-universal external validity Thus, external and ecological validity are independent – a study may possess external validity but not ecological validity, and vice versa

Qualitative research

Within the qualitative research paradigm, external validity is replaced by the concept of transferability Transferability is the ability of research results to transfer to situations with similar parameters, populations and characteristics

External validity in experiments

It is common for researchers to claim that experiments are by their nature low in external validity Some claim that many drawbacks can occur when following the experimental method By the virtue of gaining enough control over the situation so as to randomly assign people to conditions and rule out the effects of extraneous variables, the situation can become somewhat artificial and distant from real life

There are two kinds of generalizability at issue:

  1. The extent to which we can generalize from the situation constructed by an experimenter to real-life situations generalizability across situations, and
  2. The extent to which we can generalize from the people who participated in the experiment to people in general generalizability across people

However, both of these considerations pertain to Cook and Campbell's concept of generalizing to some target population rather than the arguably more central task of assessing the generalizability of findings from an experiment across subpopulations that differ from the specific situation studied and people who differ from the respondents studied in some meaningful way

Critics of experiments suggest that external validity could be improved by use of field settings or, at a minimum, realistic laboratory settings and by use of true probability samples of respondents However, if one's goal is to understand generalizability across subpopulations that differ in situational or personal background factors, these remedies do not have the efficacy in increasing external validity that is commonly ascribed to them If background factor X treatment interactions exist of which the researcher is unaware as seems likely, these research practices can mask a substantial lack of external validity Dipboye and Flanagan 1979, writing about industrial and organizational psychology, note that the evidence is that findings from one field setting and from one lab setting are equally unlikely to generalize to a second field setting Thus, field studies are not by their nature high in external validity and laboratory studies are not by their nature low in external validity It depends in both cases whether the particular treatment effect studied would change with changes in background factors that are held constant in that study If one's study is "unrealistic" on the level of some background factor that does not interact with the treatments, it has no effect on external validity It is only if an experiment holds some background factor constant at an unrealistic level and if varying that background factor would have revealed a strong Treatment x Background factor interaction, that external validity is threatened

Generalizability across situations

Research in psychology experiments attempted in universities are often criticized for being conducted in artificial situations and that it cannot be generalized to real life To solve this problem, social psychologists attempt to increase the generalizability of their results by making their studies as realistic as possible As noted above, this is in the hope of generalizing to some specific population Realism per se does not help the make statements about whether the results would change if the setting were somehow more realistic, or if study participants were placed in a different realistic setting If only one setting is tested, it is not possible to make statements about generalizability across settings

However, many authors conflate external validity and realism There is more than one way that an experiment can be realistic:

  1. The similarity of an experimental situation to events that occur frequently in everyday life—it is clear that many experiments are decidedly unreal
  2. In many experiments, people are placed in situations they would rarely encounter in everyday life

This is referred to the extent to which an experiment is similar to real-life situations as the experiment's mundane realism

It is more important to ensure that a study is high in psychological realism—how similar the psychological processes triggered in an experiment are to psychological processes that occur in everyday life

Psychological realism is heightened if people find themselves engrossed in a real event To accomplish this, researchers sometimes tell the participants a cover story—a false description of the study's purpose If however, the experimenters were to tell the participants the purpose of the experiment then such a procedure would be low in psychological realism In everyday life, no one knows when emergencies are going to occur and people do not have time to plan responses to them This means that the kinds of psychological processes triggered would differ widely from those of a real emergency, reducing the psychological realism of the study

People don't always know why they do what they do, or what they do until it happens Therefore, describing an experimental situation to participants and then asking them to respond normally will produce responses that may not match the behavior of people who are actually in the same situation We cannot depend on people's predictions about what they would do in a hypothetical situation; we can only find out what people will really do when we construct a situation that triggers the same psychological processes as occur in the real world

Generalizability across people

Social psychologists study the way in which people in general are susceptible to social influence Several experiments have documented an interesting, unexpected example of social influence, whereby the mere knowledge that others were present reduced the likelihood that people helped

The only way to be certain that the results of an experiment represent the behaviour of a particular population is to ensure that participants are randomly selected from that population Samples in experiments cannot be randomly selected just as they are in surveys because it is impractical and expensive to select random samples for social psychology experiments It is difficult enough to convince a random sample of people to agree to answer a few questions over the telephone as part of a political poll, and such polls can cost thousands of dollars to conduct Moreover, even if one somehow was able to recruit a truly random sample, there can be unobserved heterogeneity in the effects of the experimental treatments A treatment can have a positive effect on some subgroups but a negative effect on others The effects shown in the treatment averages may not generalize to any subgroup

Many researchers address this problem by studying basic psychological processes that make people susceptible to social influence, assuming that these processes are so fundamental that they are universally shared Some social psychologist processes do vary in different cultures and in those cases, diverse samples of people have to be studied


The ultimate test of an experiment's external validity is replication — conducting the study over again, generally with different subject populations or in different settings Researches will often use different methods, to see if they still get the same results

When many studies of one problem are conducted, the results can vary Several studies might find an effect of the number of bystanders on helping behaviour, whereas a few do not To make sense out of this, there is a statistical technique called meta-analysis that averages the results of two or more studies to see if the effect of an independent variable is reliable A meta analysis essentially tells us the probability that the findings across the results of many studies are attributable to chance or to the independent variable If an independent variable is found to have an effect in only one of 20 studies, the meta-analysis will tell you that that one study was an exception and that, on average, the independent variable is not influencing the dependent variable If an independent variable is having an effect in most of the studies, the meta analysis is likely to tell us that, on average, it does influence the dependent variable

There can be reliable phenomena that are not limited to the laboratory For example, increasing the number of bystanders has been found to inhibit helping behaviour with many kinds of people, including children, university students, and future ministers; in Israel; in small towns and large cities in the US; in a variety of settings, such as psychology laboratories, city streets, and subway trains; and with a variety of types of emergencies, such as seizures, potential fires, fights, and accidents, as well as with less serious events, such as having a flat tire Many of these replications have been conducted in real-life settings where people could not possibly have known that an experiment was being conducted

The basic dilemma of the social psychologist

When conducting experiments in psychology, some believe that there is always a trade-off between internal and external validity—

  1. having enough control over the situation to ensure that no extraneous variables are influencing the results and to randomly assign people to conditions, and
  2. ensuring that the results can be generalized to everyday life

Some researchers believe that a good way to increase external validity is by conducting field experiments In a field experiment, people's behavior is studied outside the laboratory, in its natural setting A field experiment is identical in design to a laboratory experiment, except that it is conducted in a real-life setting The participants in a field experiment are unaware that the events they experience are in fact an experiment Some claim that the external validity of such an experiment is high because it is taking place in the real world, with real people who are more diverse than a typical university student sample However, as real-world settings differ dramatically, findings in one real world setting may or may not generalize to another real world setting

Neither internal nor external validity are captured in a single experiment Social psychologists opt first for internal validity, conducting laboratory experiments in which people are randomly assigned to different conditions and all extraneous variables are controlled Other social psychologists prefer external validity to control, conducting most of their research in field studies And many do both Taken together, both types of studies meet the requirements of the perfect experiment Through replication, researchers can study a given research question with maximal internal and external validity

See also

  • Statistical conclusion validity
  • Internal validity
  • Ecological validity
  • Construct validity
  • Content validity


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