Revisiting the Impact of Instructional Immediacy: A Differentiation Between Military and Civilians Free

Students learn best from instructors they perceive to be competent, who they can trust to be knowledgeable about the class content; but equally as influential to students’ learning is their perception of whether the instructor cares if they learn (Finn et al., 2009). The best predictor of students’ perceiving that an instructor cares about whether they learn is the presence of instructional immediacy (Teven, 2001). Instructor assertiveness and responsiveness have also been identified to positively relate to students’ perceptions of a caring instructor. Teven (2001) speculates that perceptions of a caring instructor influences student learning due to the norm of reciprocity. More specifically, if students perceive that the instructor cares about whether they learn, then the students will believe that they should also care; therefore, the students become motivated to learn.

Aside from investigating displays of instructional immediacy, research has also identified a nonimmediate behavior that has often been displayed by instructors, which can counteract the positive effects of instructional immediacy: verbal aggression. Immediate communicative behaviors will only enhance the communication atmosphere (Mehrabian, 1967). Therefore, if immediate instructional communicative behaviors are very low or absent, these behaviors will not have a negative impact on communication; rather, they will have no effect. Thus, presence of instructional immediacy can enhance students’ learning experiences from the baseline in which the experience would be without the presence of immediate instructional cues. Low displays of instructional immediacy differ from displays of nonimmediate instructional communication in that while low displays will not affect students, nonimmediate displays have a negative effect. A negative relationship has been identified between the presence of verbal aggression and students’ perceptions of whether an instructor cares about whether they learn (Teven, 2001), student attendance (Rocca, 2004), overt information seeking, and out-of-class communication (Myers, Edwards, Wahl & Martin, 2007).

Motivation, the force that prompts an individual to perform a particular act, can be broken into state or trait motivation (Brophy, 1983). State motivation is prompted by a particular catalyst in a particular situation, whereas trait motivation is an enduring component of an individual's personality. Instructional communication has been identified as related to students’ classroom state motivation in two ways. First, a positive relationship has been identified between displays of instructional immediacy and students’ motivation to attend class (Rocca, 2004). Second, a robust history of literature has consistently identified a positive relationship between instructional immediacy and student motivation to learn, as is presented in Allen, Witt, and Wheeless’ meta-analysis (2006).

Bloom (1956) identified three domains of learning: affective (attitudinal), cognitive (knowledge), and psychomotor (skills). Throughout the history of instructional communication research, scholars have consistently identified positive relationships between instructional immediacy and students’ affective and cognitive learning (Andersen, 1979; Burroughs, 2007; Christophel, 1990; Gorham & Christophel, 1990; Kearney, Plax, & Wendt-Wasco, 1985; Kelley & Gorham, 1988; Powell & Harville, 1990; Richmond, 1990). “No other teacher communication variable has been so consistently associated with increases in both students’ affective and cognitive learning” (Rodriguez, Plax, & Kearney, 1996, p. 293). Allen et al. (2006), through a meta-analysis, identified a potential direct causal relationship between instructional immediacy and affective learning as well as a direct causal relationship between affective learning and cognitive learning. Thus, displays of instructional immediacy potentially have a direct impact on students’ affective learning and an indirect impact of students’ cognitive learning. Another standard for assessing classroom learning is evaluating how satisfied students are with the amount they have learned compared to how much they anticipate learning. Students are more likely to be satisfied with their learning experience if instructors use “skillful facework” during feedback (Kerssen-Griep, 2001; Kerssen-Griep, Trees, & Hess, 2008). Skillful facework involves making eye contact with students and using facial expressions that are perceived to be more positive (i.e., smiling). These displays of skillful facework have consistently been identified as cues of nonverbal instructional immediacy (Richmond, Gorham, & McCroskey, 1987; Richmond, McCroskey, & Johnson, 2003; Smythe & Hess, 2005).

Previous studies looking at immediacy in the online classroom have reported positive relationships between instructional immediacy and both student motivation and learning in the online classroom (Arbaugh, 2001; Baker, 2004,Easton, 2003; Rovai & Barnum, 2003; Woods, 2002). However, these studies have two shortcomings. First, the studies used items from the verbal immediacy scale (Gorham, 1988) to measure instructional immediacy rather than a valid measure (Robinson & Richmond, 1995) composed of items specific to instructional immediacy displayed through computer-mediated communication. Second, these studies did not differentiate between military and civilian learners. Instructional immediacy is particularly important in online courses because computer mediated instructional immediacy has been consistently reported to correlate highly with students’ perceptions of an instructor's social presence (Bolliger, 2009; Lim, Dannels, & Watkins, 2008; Yen & Tu, 2008).

As any display of immediacy will have a positive impact on the message receiver, it is assumed that computer mediated instructional immediacy will have a positive impact on both military and civilian student learning and motivation. However, the cues of computer mediated instructional immediacy may differentiate between military and civilian students. Therefore, the following hypotheses will be addressed:

To better understand the differences in the way that computer-mediated instructional immediacy relates to military and civilian student motivation and learning, particularly with the cues identified to be immediate within the online classroom, the following research question is also proposed:

Participants were recruited from three large regionally accredited not-for-profit universities that have both brick-and-mortar and online campuses. The universities sent a link to students enrolled in their online education programs. The response rate was approximately 12%, yielding 497 responses. Participants were only recruited from online programs because distance education is preferred by the military due to the anytime, anywhere accessibility of the classes.

All students enrolled in online education at the three universities were invited to participate. All participants received a hyperlink from their university for an online survey. The link took each participant to a welcome screen, which contained the informed consent, describing the study as an attempt to understand how students learn in the online classroom environment. Participants were informed that by clicking next that they were indicating their consent to participate. Participants spent approximately 15 minutes completing the survey.

Computer-mediated instructional immediacy was measured through the computer mediated instructional immediacy measure (α = .84; Fall et al., 2010; Kelly, Kotowski, & Fall, 2010). Motivation was measured using subscales derived from the Motivated Strategies for Learning Questionnaire; Pintrich, Smith, Garcia, & McKeachie, 1993). The following are the reliability scores measured via Cronbach's alpha: intrinsic goal orientation motivation (α = .78), extrinsic goal orientation motivation (α = .67), self-efficacy motivation (α = .90), and task value (α = .91). Learning loss was measured through an adaptation of Gorham's (1988) original measure by calculating the difference in what students perceived they could have learned in an ideal class format versus what they perceived that they actually learned in their present course. The original scale differentiated based on perceptions of the ideal and actual teacher rather than class format.

The sample consisted of 254 current and former military personnel and 243 civilians. Male students made up 70% of the sample with the other 30% consisting of female students. The average age of participants was 39.

Pearson correlations were run between computer-mediated instructional immediacy and each type of state motivation and learning loss for both the military and civilian subsamples among the participants. The results among military participants for the correlations between computer-mediated instructional immediacy and each of the other variables were as follows: intrinsic goal orientation motivation yielded r = 0.29 (p < 0.01; 0.17 < ρ < 0.40), extrinsic goal orientation motivation yielded r = 0.11 (p > 0.05), task value motivation yielded r = 0.37 (p < 0.01; 0.26 < ρ < 0.47), self-efficacy motivation yielded r = 0.40 (p < 0.01; 0.29 < ρ < 0.49), and learning loss yielded r = –0.417 (p < 0.01; –0.51 < p < –0.31). Thus, Hypotheses 2, 3, 4, and 5 were supported. However the null hypothesis corresponding with H1, which predicted a positive relationship between military extrinsic goal orientation motivation and computer-mediated instructional immediacy, cannot be rejected due to a lack of statistical significance among the results. These results are summarized in Table 1.

The results among civilian participants for the correlation between computer-mediated instructional immediacy and each of the other variables were as follows: intrinsic goal orientation motivation yielded r = 0.24 (p < 0.01; 0.17 < ρ < 0.35), extrinsic goal orientation motivation yielded r = 0.11 (p > 0.05), task value motivation yielded r = 0.35 (p < 0.01; 0.22 < ρ < 0.44), self efficacy motivation yielded r = 0.32 (p < 0.01; 0.20 < ρ < 0.43), and learning loss yielded r = –0.45 (p < 0.01; –0.54 < ρ < −0.34). Thus, Hypotheses 7, 8, 9, and 10 were supported. However, the null hypothesis corresponding with Hypothesis 6, which predicted a positive relationship between civilian extrinsic goal orientation motivation and computer-mediated instructional immediacy, cannot be rejected due to a lack of statistical significance among the results. These results are also summarized in Table 1.

The research question called for a comparison between the military and civilian groups regarding the strength of the correlations between each variable and computer-mediated instructional immediacy. The correlation between computer-mediated instructional immediacy and extrinsic goal orientation motivation were not statistically significant for either group. Therefore, a comparison cannot be made. Comparisons can be made regarding the correlations between computer-mediated instructional immediacy and intrinsic goal orientation motivation, task value motivation, self-efficacy motivation, and learning loss by comparing the confidence intervals. The results indicate no significant difference between groups as demonstrated by overlapping of corresponding confidence intervals.

The results of this study imply that, not only are the indicators of computer-mediated instructional immediacy similarly recognized among civilian and military students, but that the relationship between computer-mediated instructional immediacy and motivation to learn is of similar strength across both groups. This was unexpected, considering the self-motivated nature of the military. However, these findings are useful to online educators who find themselves at an institute with a high military enrollment. This study did not support the notion that online instructors need to communicate differently between military and civilian students.

This study was limited in its use of the learning loss scale (Gorham, 1988). Although this measure was designed specifically for the college student population, it yields a score by calculating the difference in two items. Thus, it is a very weak measurement instrument (Davis, 1993). The learning loss scale was used because data were collected at midsemester when students would have a thorough assessment of how well the class suited their learning needs, but perhaps not have an idea of what their final grade would be. Future studies should look to obtaining a better evaluation of student learning, perhaps through a final course grade.

However, these results speak to the power of instructional immediacy. Enrollment in online classes currently outnumbers enrollment in traditional classes on brick-and-mortar campuses (Artino & Stephens, 2009; Larreamendy-Joerns & Leinhardt, 2006). Educators have relied upon a set of nonverbal cues to express instructional immediacy within the classroom for several decades (Richmond et al., 1987; Richmond et al., 2003; Smythe & Hess, 2005). Therefore, in light of the evolution of the classroom into the digital platform, educators must be persistent in their dedication to identify immediate cues that translate well through computer-mediated communication to ensure a quality education for online students.