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Social Influence Moderates Placebo Response
Draft under review, last updated 2.5.16
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Transforming Water: Social Influence Moderates Psychological, Physiological, and
Functional Response to a Faux Product
Alia J. Crum1*, Damon J. Phillips2, E. Tory Higgins2
1Stanford University, 450 Serra Mall, Stanford, CA 94305
2Columbia University, 116th St & Broadway, New York, NY 10027
Correspondence to:
Dr. Alia J. Crum Bldg. 420, Jordan Hall, Rm 244 Stanford, CA 94305-2130 ph: 970 987 9182 email: [email protected]
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Abstract
This paper investigates how social influence can alter physiological, psychological, and
functional responses to a faux product and how such responses influence the ultimate
endorsement of the product. Participants consumed a product, “AquaCharge Energy Water,”
falsely-labeled as containing 200 mg of caffeine but which was actually plain spring water in one
of three conditions: a no social influence condition, a disconfirming social influence condition,
and a confirming social influence condition. Results demonstrated that the effect of the product
labeling on physiological, psychological and functional alertness was moderated by social
influence: participants experienced more subjective, physiological and functional alertness after
consuming the product in the confirming social influence condition and experienced less
subjective, physiological and functional alertness after consuming the product in the
disconfirming social influence condition. Moreover, participants in the confirming social
influence condition more strongly endorsed the product, an effect that was mediated by changes
in blood pressure. These results suggest that social influence can alter subjective, physiological
and functional responses to a faux product, in this case transforming the effects of plain water.
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Although we are told, “a rose by any other name would smell as sweet,” decades of
psychological research establishes that the sensory properties of an object or substance are not
the sole determinant of how we experience it. This is especially true for shaping experiences of
food and beverage consumption, in which case simply altering the name or label of a food can
literally make the product taste sweeter. For example, people enjoy the taste of Coke more when
it is consumed in a brand name cup (McClure et al., 2004), children enjoy the taste of french
fries, milk, and carrots more when they believe them to be from McDonald’s (Robinson,
Borzekowski, Matheson, & Kraemer, 2007), and beer infused with vinegar is enjoyed more if it
is labeled as having a “special ingredient” than when the actual ingredient is unveiled (Lee,
Frederick, & Ariely, 2006).
Inspired by the neurological and physiological effects found in clinical trials and placebo
research (Finniss, Kaptchuk, Miller, & Benedetti, 2010), a growing body of research suggests
that, in addition to influencing perception and behavior, mindsets and expectations can also alter
more “objective” outcomes such as sensory experience and physiological processing. For
example, increasing the perceived cost of wine results in heightened activity in areas of the brain
related to pleasure and reward when consuming the exact same wine. (Plassmann, O’Doherty,
Shiv & Rangel, 2008). Additionally, participants who thought they were drinking an indulgent,
high-calorie milkshake showed steeper declines in ghrelin, a hunger-inducing hormone, than
when they thought that the same shake was a sensible, low-calorie milkshake (Crum, Corbin,
Brownell, & Salovey, 2011).
Such effects do not exist in a vacuum. Instead, social forces dynamically inform them.
Social forces supply new information, confirm or correct old information, and serve as a
foundational source for our mindsets, beliefs, and expectations (Asch, 1948; Robert B. Cialdini,
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2005; Hardin & Higgins, 1996; Muchnik, Aral, & Taylor, 2013; Salganik, Dodds, & Watts,
2006). Individuals often turn to others for information about what foods are good or bad, what
diets work or fail, and what medications are most effective. Decades of research support the idea
that social forces can change subjective emotions and preferences (R. B. Cialdini & Goldstein,
2004; Colloca & Benedetti, 2009; Moscovici, Lage, & Naffrechoux, 1969; Salganik et al., 2006;
Schachter & Singer, 1962; Sherif, 1937). And more recent research has accumulated to suggest
that social information (e.g., about other’s attractiveness) can increase or decrease the
neurological activity in the orbitofrontal cortex and the nucleus accumbens, suggesting that
social influence can produce changes in brain areas corresponding to hedonic experience (Zaki,
Schirmer, & Mitchell, 2011).
Can social influence literally “get under the skin” and affect physiological experiences of
a product? Literature from medical and placebo research suggests that this may indeed be
possible. Research on mass psychogenic illness (MPI) demonstrates that the collective
occurrence of self-reported physical symptoms in the absence of an identifiable pathogen is a
relatively common occurrence (Mazzoni, Foan, Hyland, & Kirsch, 2010). Studies exploring
MPI empirically have shown that the belief that one has inhaled a substance described as an
environmental toxin, when in fact it is just odorless ambient air, can evoke the experience of
corresponding symptoms (e.g., headaches, nausea, and drowsiness). Most importantly,
researchers have documented that these symptoms are increased (up to an 11x increase in one
study) when in the presence of a confederate participant displaying the expected symptoms
(Broderick, Kaplan-Liss, & Bass, 2011; Lorber, Mazzoni, & Kirsch, 2007; Mazzoni et al., 2010).
Placebo analgesia research has demonstrated that pain relief can be conditioned by witnessing
another person receive pain relief (Colloca & Benedetti, 2009). These studies suggest that social
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influence may affect physiological or visceral experience. However, these studies are limited to a
clinical context and have only been reflected in self-reported measures of physiological
experiences such as pain or nausea. Thus, an important question remains unanswered: can
social influence moderate the physiological effects of a product or experience as indicated by
objective measures such as cardiovascular, immune or neuroendocrine response?
Previous research has demonstrated that beliefs and expectations about a product or
experience induced by labels or beliefs can affect physiological and psychological responses to
that product. A separate body of research suggests that social influence can affect psychological
responses and possibly physiological response although no study to our knowledge has directly
tested the later. No studies, to our knowledge, have explored how the psychological,
physiological and functional effects of social influence may be responsible for the degree to
which a person ultimately endorses a product. In other words, it remains to be understood
whether the effects of social influence on product endorsement are mediated through changes in
psychological response, physiological response or both.
To test these questions we created a product, “AquaCharge Energy Water.” The bottle’s
label indicated that it contained 200 mg of performance and energy-enhancing caffeine. In
reality, it was plain spring water. After participants consumed the product we compared
measures of subjective arousal, physiological arousal and cognitive function known to respond to
the effects of caffeine across three conditions: a no social influence condition, in which the
participant consumed the water in a room alone, a disconfirming social influence condition, in
which the participant consumed the water alongside a confederate who denied the effect of the
product, and a confirming social influence condition, where the confederate participant endorsed
the effect of the product. We predicted that, in line with research on the effects of placebo
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caffeine, all participants would experience increases in subjective, physiological and functional
response. Additionally, we predicted that in line with research on social influence these effects
would be moderated by social influence such that they would increase in the presence of an
affirming confederate and decrease in the presence of a denying confederate. We also
investigated whether subjective and physiological responses to the product would mediate
endorsement of the product.
Participants and Design
We recruited 98 females (24% Black, 40% White, 36% Asian) (mean age=24 years;
SD=5) from a university study pool. The decision to have at least 30 participants in each
condition was predetermined based on published research on MPI, placebo caffeine, and social
influence (Mazzoni et al., 2010; Boothby et al., 2010; Harrell & Juliano, 2009). Participants
were screened at the onset and excluded from the study if they were a smoker, had high blood
pressure, or reported intake of alcohol, antihistamines, caffeine, or anything besides water two
hours prior to experiment. Participants received $20 for their participation, with the opportunity
to earn a $100 gift card reward if they completed the one-week follow-up questionnaire.
Participants were randomly assigned to: 1) no social influence condition (N = 35); 2) confirming
social influence condition (N= 32); or 3) disconfirming social influence condition (N = 31). To
heighten the effect of social influence (Echterhoff, Higgins, & Levine, 2009) and reduce
variability from gender effects on arousal (Hartley, Lovallo, & Whitsett, 2004) participants were
matched to the same-race and same-sex confederates.
Procedure
Participants were asked to not drink caffeine or consume anything except water for two
hours prior to the onset of the 1-hour study, which took place during the morning hours of 9am-
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12pm. After arriving at the laboratory, participants filled out two short questionnaires assesing
their caffeine exposure and expectancies as well as their subjective arousal levels. Participants
were then directed into a room in which the confederate participant was present (conditions 1
and 3) or into an empty room with no other participant present (condition 2). The participant
and (for conditions 1 and 3) the confederate were then connected to a Noninvasive Blood
Pressure System (NIBPH100D) to record systolic blood pressure (SBP) responses following
which they completed a Stroop task. Following these baseline measurements, participants were
given an iPad and asked to view and rate the product’s website (Figure 1). The purpose of this
was to add to the credibility of the study guise (beta-testing the marketing for a new product) and
ensure that the participants paid attention to the placebo/mindset intervention (that the water is
infused with caffeine and thus will increase their arousal, energy and reaction time when
consumed).
INSERT FIGURE 1
After completing the website-rating form, participants were given an 8 oz bottle of
AquaCharge (Figure 2) and asked to consume the product in its entirety within two minutes.
Participants were then told to wait “a few minutes for the energy water to take effect.” Three
minutes after consuming the water, the confederate participant spoke. In the disconfirming
confederate condition, the confederate stated: “Hmm. I don’t really feel any change. I’m
definitely NOT feeling charged up. How about you?” In the confirming confederate condition,
the confederate participant stated: “Wow! This is really something. This is really waking me up!
How about you?” After the confederate spoke, the experimenter entered the room and reminded
participants to stay quiet during the testing phase. For the next five minutes, participants sat
quietly and completed a few questions asking about the product label, taste of the product. These
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were filler questions designed to keep them focused on the product and maintain alignment with
the study guise.
INSERT FIGURE 2
Ten minutes after consuming the product, the participant completed the subjective
alertness questionnaire, the Stroop task and a “Product Endorsement Survey.” One week later
participants were contacted by email and asked to fill out a short survey asking them how many
people they had told about the product and for what reasons.
Measures. Subjective, physiological and functional tasks were chosen based on research
supporting the effects of caffeine on subjective arousal (Childs & de Wit, 2006; Smith, 2002),
systolic blood pressure (Hartley et al., 2004; Karatzis et al., 2005) and cognitive interference
(Dixit, Goyal, Thawani, & Vaney, 2012; Kenemans, Wieleman, Zeegers, & Verbaten, 1999).
Subjective Alertness: Participants’ subjective alertness was measured by a scale
developed and validated by Kirsch & Weixel (Kirsch & Weixel, 1988) for the purposes of
studying the effects of caffeine. The scale includes fifteen adjectives along a 5-point Likert
scale, which factor in three subscales indicating alertness, relaxation, and tension. In the current
sample, Cronbach’s alpha was adequate (alertness subscale alpha = .79; tense subscale alpha =
.73; relaxation subscale alpha = .86). There were no significant effects of time or condition for
the tense or relaxation subscales.
Physiological Alertness: Participants’ physiological arousal was measured using a
Noninvasive Blood Pressure System (NIBPH100D) that recorded systolic blood pressure (SBP)
responses. To equate in time with the subjective responses we analyzed blood pressure at
immediately before consumption and 5 minutes after consumption. Due to technical issues with
the blood pressure machine, data from several participants was unreadable, thus blood pressure
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was analyzed for 79 participants (N = 22 Disconfirming Confederate; N=25 No Confederate;
N=32 Confirming Confederate).
Functional Alertness (Cognitive Interference): Because cognitive interference has shown
to be affected by caffeine intake, participants’ cognitive interference was measured using the
Stroop color-naming task (Stroop, 1935; Macleod, 1991). Participants were instructed to
indicate the font color of a letter string by pressing one of four appropriate color-coded keys as
quickly as possible. On incongruent trials a color word appeared in a font color different from its
semantic meaning (e.g., “BLUE” in red font), whereas confirming trails displayed a color word
that matched its font color (e.g., “BLUE” in blue font). Control trials consisted of a string of
“@”s in one of the four font colors. Participants completed 20 practice and 90 experimental
trials. Stroop interference scores were computed as the difference in response latencies (in
milliseconds) between incongruent and congruent trials, with higher scores indicating greater
cognitive depletion. Incorrect responses and latencies above 2000 ms and below 200 ms were
recoded as missing data.
Product Endorsement: To assess product endorsement, participants were asked a variety
of questions pertaining to their endorsement of the AquaCharge product. Should Cost was
measured by asking people, “How much would you pay for AquaCharge Energy Water in a
store?” They were given several benchmarks to assist them in making their decision including
Gatorade ($1.50), Poland Springs Water ($1.75) and Five Hour Energy ($2.10). Probability of
Buying the product was measured by asking participants to rate “What is the likelihood you
would BUY AquaCharge in a store,” on a Likert scale ranging from 1= Not at all to 7 =
Extremely. Ambassador Initiative was measured by taking the mean rating of participants’
likelihood to: “Become a College Ambassador for AquaCharge”, “Boost my resume by working
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for AquaCharge”, and “Help make AquaCharge available on or near your campus,” (1= Not at
all, 4 = A little, 7 = Extremely). One week following their participation, participants were
contacted by email and asked to fill out a short survey asking them how many people they had
had told about the product and the reasons for telling them (e.g., because “I love the product and
want people to know about it”; “I am just a talker and tell everyone things”; “I didn’t like the
product and wanted them to know I didn’t like it”; “I thought it was an interesting idea” or “I
thought they would be interested in it”). Number of People Told was calculated as the total
number told either because they checked “I love the product and want people to know about it”
or “I thought they would be interested in the product.” They then chose whether they wanted to
be entered to win either a $100 gift card or an $80 gift card and a case of 30 bottles of
AquaCharge, serving as a behavioral measure of product endorsement. Chose AquaCharge over
Cash was calculated as the total number of participants choosing this second option (0 = no, 1=
yes) per condition. Data was analyzed for the 79 participants who completed this follow-up
survey (N = 21 disconfirming confederate; N=12 no confederate; N=19 confirming confederate).
Complete means and standard deviations for each dependent variable are detailed in Table 2.
Results
To test whether the social influence condition moderated changes in subjective,
physiological, and functional response, a hierarchical regression model predicting post
consumption subjective alertness, physiological alertness (SBP), and functional response was
conducted with baseline levels entered in Step 1 and social influence condition (disconfirming
confederate=1, no confederate=2, confirming confederate=3) entered in Step 2. These results
indicate a significant effect of social influence condition on subjective alertness [β=.14,
t(96)=2.28 p=.025] as well as change in physiological alertness as measured by systolic blood
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pressure [β=.15, t(76)=2.07 p=.04] (Table 1). Furthermore, there was a significant effect of
social influence condition on functional alertness as indicated by change on the Stroop task from
baseline to post-consumption [β=-.22, t(92)=-2.29 p=.024].
INSERT TABLE 1 AND FIGURE 3
Linear regression also tested the effect of condition on product endorsement variables
(likelihood of purchasing, should cost, ambassador initiative, number of people told about
product, and choice of AquaCharge over cash). These results indicate a significant effect of
social influence condition on product endorsement as indicated by what participants thought the
product should cost [β=.27, t(96)=2.77 p=.007], likelihood to buy AquaCharge [β=.31, t(97)=
3.25 p=.002], and marginally significant effects on willingness to be an ambassador for the
product [β=.19, t(97)=1.92 p=.057], the number of people told about the product at a 1 week
follow-up [β=.24, t(50)= 1.76 p=.08] and the extent to which participants chose the option to
win AquaCharge over cash [β=.25, t(50)=1.84 p=.07] (Figure 4).
INSERT FIGURE 4 AND TABLE 2
To test whether the effect of social influence on product endorsement was mediated
through differences in physiological alertness, subjective alertness, or functional alertness, we
employed a bootstrapping method (MacKinnon, Lockwood, Hoffman, West, & Sheets, 2002;
Preacher & Hayes, 2004) with n=5000 bootstrap resamples in which subjective alertness and
SBP were included as potential mediators in the model, and baseline alertness and pre
consumption SBP were included as covariates. Because the product endorsement variables hung
reasonably well together (alpha=.67) we created an aggregate index by taking the mean of the
standardized variables. The analyses revealed with 95% confidence that the effect of social
influence on aggregate product endorsement was significantly mediated by changes in SBP
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[point estimate=.04; 95% CI .0020, .1271] and not by changes in subjective alertness [point
estimate=.04 ; 95% CI .-.0005, .1580] or changes in functional response [point estimate=.002 ;
95% CI .-.0172, .0050]. This suggests that endorsement of the product was largely driven by the
changes in systolic blood pressure evoked by social influence rather than by changes in self-
reported arousal or reductions in cognitive interference.
Discussion
When participants entered our lab they thought they were drinking the latest in a line of
enriched bottled waters. They believed that they were drinking water infused with caffeine, when
in fact it was just plain water. Our results demonstrated that the effect of this belief on
physiological, psychological and functional alertness was moderated by social influence:
participants experienced more subjective, physiological and functional alertness after consuming
the product in the confirming social influence condition and experienced less subjective,
physiological and functional alertness after consuming the product in the disconfirming social
influence condition. Furthermore, the social influence manipulation proved to have effects on
product endorsement. Participants in the confirming social influence condition were willing to
pay more for the product, more likely to buy it, more likely to choose the product over cash,
more interested in being an ambassador for the product and more likely to tell their friends about
the product. Finally, mediation analyses indicated that the effect of social influence condition on
product endorsement was mediated by changes in physiological alertness as measured by systolic
blood pressure and not changes in subjective alertness or functional alertness.
These results inform and extend the literature on social influence and product
consumption in two important ways. First, researchers have traditionally struggled to distinguish
the effects of social influence on true changes in preference versus mere public compliance (R.
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B. Cialdini & Goldstein, 2004; Moscovici et al., 1969; Sherif, 1937). Recent research has
informed this debate by employing neurological techniques that suggest that social influence can
produce changes in brain areas corresponding to hedonic experience (Zaki et al., 2011). Our
results extend this research and suggest that social influence can also produce physiological and
functional responses, such as differences in systolic blood pressure and cognitive interference to
a faux stimulant.
Second, our research extends the existing body of research on social influence by
furthering our understanding of mechanisms through which social influence might influence
one’s ultimate endorsement of a product. Intriguingly, our mediation results suggest that
endorsements of a product or substance may not simply be driven by social desirability or
subjective reports of effectiveness. Instead, they seem to be most strongly driven by
physiological differences (in this case systolic blood pressure) induced by the social-
psychological nature of the experience.
These findings are particularly interesting to take into account when considering the
increasing popularity of “aquaceuticals” and other products that contain active ingredients which
claim to have effects that are not scientifically supported. If these products are actually
producing the proclaimed effects—even if the cause of the change is driven primarily by the
psychosocial context as opposed to the ingredients themselves—does that make the purchase of
those products and their growing popularity more legitimate? Assessing the legitimacy of
purchasing such products is far out of the scope of this paper, of course; at the very least, these
results remind us that to understand the true effects of any product or substance we must work to
account for the psycho-social setting in which it is consumed.
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When reflecting on the legitimacy of marketing claims, it is important to note that the
differences in blood pressure in our study did not result from an increase from baseline levels;
instead, overall blood pressure dropped during the study procedure and this drop was
exacerbated in the incongruent social influence condition but eliminated in the congruent social
influence condition. This decline in blood pressure is to be expected given the prolonged
sedentary behavior throughout the course of the experiment and is a common occurrence in
similar experimental paradigms. However, future research aimed at understanding the effects of
the expectation alone would benefit from including a control condition in which participants
consumed the same bottled water without the belief that it was caffeinated. Of course, research
has already established that placebo caffeine can increase blood pressure response as compared
to decaffeinated control (Kirsch & Weixel, 1988) and our primary aim was to test the moderating
role of social influence on physiological responses and the differences in decline are indicative of
the influence of social influence on physiological arousal.
Although the results of this study provide important data on the impact of social influence
on product experience and endorsement, several questions remain. First, how did the presence of
a confederate participant influence physiological or functional responding? Although it is
possible that there was an influence from the mere presence of the confederate (Zajonc, 1965),
the same presence of a confederate either increased or decreased the effects depending on what
the confederate said about the product experience. A more likely mechanism is that what the
confederate said about the product experience altered the response expectancies of the
participant, which in-turn influenced the participant’s physiological and functional responding.
In the current study we did not measure the momentary change in expectations because we were
concerned that asking participants about their expectations after the social encounter would lead
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them to question the study guise. Thus, more research is needed to thoroughly understand the
precise mechanisms (i.e. increased expectancy or other avenues) through which social influence
can affect physiological and functional responding.
What about the form through which social information is communicated? In today’s
world, social influence is often transmuted through technology (via social media, email, etc.).
Does in-person social influence have the same effect as technologically-transmuted social
influence? Hunter and colleagues (2014) demonstrated the social modeling of a placebo
analgesic is effective both when presented in person as well as when participants view a
recording of a participant (Hunter, Siess, & Colloca, 2014). However, more work is needed to
understand the context in which social influence is likely to have the most potent effects. One
question that remains is the degree to which social information is merely providing additional
information about the benefits of the product or if there is something inherently unique about the
human connection or what is sometimes called “shared reality” (Hardin & Higgins, 1996).
Third, what is the relative weight of impact from social influence and objective qualities
of a product, substance, or experience? We intentionally chose water as our product, rather than
something like decaf coffee, in an effort to isolate the effect of social influence from
conditioning or other effects that might result from the smell of decaf coffee (Benedetti, 2008).
Future research is needed to understand how social influence interacts with sensory properties to
engineer the ultimate impact of a product, medication, or experience.
Finally, what are the boundaries of these effects? In the current study we chose to study
women only and to match the race and gender of the confederate with the participant to reduce
variability and maximize perceived similarity between the participant and the confederate.
According to Bandura’s Social Learning Theory, male subjects are more prone to imitate male
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models and female subjects more prone to imitate female models (Bandura, Ross, & Ross, 1961;
Bussey & Bandura, 1984). Research exploring social modeling on placebo responding has
shown mixed effects of gender, with some studies demonstrating greater effects with matched
confederates (Lorber et al., 2007; Mazzoni et al., 2010), and some demonstrating greater effects
with male models (Świder & Bąbel, 2013) and some showing no gender differences in
responding or matching affect (Broderick et al., 2011). The present study is limited in its ability
to inform this debate and or make claims outside of female-female interactions.
Though much remains to be explored, our results are intriguing in demonstrating that
social influence—working hand in hand with the psychological construction of sensory input—
can alter physiological and functional response to a product, in this case changing the experience
of, and attitudes toward, simple water.
Acknowledgments
We thank Jennifer Aaker, Ted Kaptchuk, Irving Kirsch, Stephen Kosslyn, Hazel Markus, Ann
McGill, Lee Ross and Jamil Zaki for their comments on this manuscript and Nana Amoh, Hayley
Blunden, Ellen Hada, and Yael Warach for their assistance in conducting this experiment
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Table 1. Stepwise regression results for changes in subjective, physiological and functional alertness. Subjective
Alertness Systolic
Blood Pressure Cognitive
Interference β R2 ∆R2 β R2 ∆R2 β R2 ∆R2 Step 1 .34** .34** .42** .42** .07** .07** Baseline .58** .65** .27** Step 2 .37** .03** .45* .03* .12* .05* Baseline .59** .64** .27** Condition .19* .18* -.22*
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Table 2. Means and (standard deviations) for outcome variables as a function of condition
Condition Disconfirming Confederate
No Confederate
Confirming Confederate
Subjective Alertness Baseline 3.38(.62) 3.34(.53) 3.31(.73) Post Consumption 3.63(.69) 3.78(.52) 3.86(.53) Systolic Blood Pressure Baseline 126.0(18.8) 130.9(25.8) 131.1(25.9) Post Consumption 115.0(32.1) 120.3(24.8) 130.6(27.6) Cognitive Interference Baseline 89.64(94.35) 81.61(130.02) 91.56(78.78) Post Consumption 100.09(94.78) 59.70(68.67) 54.13(81.65) Should Cost 1.57(.41) 1.77(.41) 1.88 (.45) Probability of Buying 2.97(1.77) 3.59(2.12) 4.50(1.74) Ambassador Initiative 2.34(1.68) 2.36(1.78) 3.19(1.79) Chose ACW over Cash* 1.10(.30) 1.08(.29) 1.32(.48) # of People Told* .05(.21) .08(.28) .63(1.67)
Note: * indicates measure taken 1 week after experiment.
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Fig. 1. Screenshot of the AquaCharge website “The Buzz” page.
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Fig. 2. Label affixed to 8oz plastic bottles of spring water.
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Fig. 3. Effect of condition on subjective alertness (A) physiological alertness (SBP) (B), and
functional alertness (cognitive interference) (C).
(A) (B)
(C)
Note. Error bars reflect standard +/- 1 SE.
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Fig. 4. Effect of condition on product endorsement. (A) (B)
(C) (D)
(E)
Note. Error bars reflect standard +/- 1 SE.