The present paper deals with the future trends of researches in the area of spatial ability and its implication on education. Researches on spatial ability are predicted to continue with two concurrent themes: its association with intelligence and the influence of technology and computer in redefining and molding spatial ability. Current technologies like 3D Imaging, virtual reality, simulations are redefining and molding spatial ability.

Article visualizations:

Anglin, G., Towers, R., & Moore, K. (1997). The effect of dynamic and static visuals on the recall and comprehension of information using computer- based instruction. Journal of Visual Literacy, 17(2), 25-37.

Bertoline, G. R. (1991). Using 3D geometric models to teach spatial geometry concepts. Engineering Design Graphics Journal, 55(1), 37-47.

Bertoline, G. R., Miller, C. L., & Mohler, J. L. (1995). Using multimedia tools in the presentation of engineering graphics concepts. Proceedings of the American Society for Engineering Education North Central Section Annual Meeting, 89-95.

Braukmann, J., & Pedras, M. J. (1993). A comparison of two methods of teaching visualization skills to college students. Journal of Industrial Teacher Education, 30(2), 65-80.

Clements, D. H., Battista, M. T., Sarama J., & Swaminathan, S. (1997). Development of students’ spatial thinking in a unit on geometric motions and area. The Elementary School Journal, 98(2), 171-186.

Devon, R., Engel, R. S., Foster, R. J., Sathianathan, D., & Turner, G. F. (1994). The effect of solid modeling software on 3-D visualization skills. Engineering Design Graphics Journal, 58(2), 4-11.

Galton, F. (1880). Statistics of mental imagery. Mind, 5, 300-318.

Galton, F. (1911). Inquiries into human faculty and its development. London: J.M. Dent & Sons.

Gardner, H. (1984). Frames of mind. New York: Basic Books.

Gardner, H. (1993). Multiple intelligences: The theory in practice. New York: Basic Books.

Geban, O., Askar, P., & Ozkan, I. (1992). Effects of computer simulations and problem-solving approaches on high school students. Journal of Educational Research, 86(1), 5-10.

Mackenzie, D. S., & Jansen, D. G. (1998). Impact of multimedia computer-based instruction on student comprehension of drafting principles. Journal of Industrial Teacher Education, 35(4), 61-89.

McCuistion, P. (1989). Static vs. dynamic visuals in computer assisted instruction. (Doctoral Dissertation, Texas A&M University, 1989). Dissertation Abstracts International, 51(1), 144.

McCuistion, P. (1990). Static vs. dynamic visuals in computer assisted instruction. Proceedings of the American Society for Engineering Education Annual Conference and Exposition, 143-147.

McLellan, H. (1998). Cognitive issues in virtual reality. Journal of Visual Literacy, 18(2), 175-199.

Metallinos, N. (1994). New communication media technologies: Perceptual, cognitive, and aesthetic effects. Journal of Visual Literacy, 14(2), 41-49.

Miller, C. L. (1992a). The results of integrating real and computer generated models into a traditional sketching based engineering graphics course. Engineering Design Graphics Journal, 56(2), 27-47.

Miller, C. L. (1992b). Enhancing visual literacy of engineering students through the use of real and computer generated models. Visual Communications: Bridging Across Cultures: Selected Readings from the 23rd Annual International Visual Literacy Association Annual Conference, 85-96.

Miller, C. L. (1992c). The effectiveness of real- and computer-generated models to advance the spatial abilities of visual/haptic engineering students. (Doctoral Dissertation, The Ohio State University, 1992). Dissertation Abstracts International, 53(11), 3823.

Miller, C. L., & Bertoline, G. R. (1991). Spatial visualization research and theories: Their importance in the development of an engineering and technical design graphics curriculum model. Engineering Design Graphics Journal, 55(3), 5-14.

Mohler, J. L. (1997). An instructional method for the AutoCAD modeling environment. Engineering Design graphics Journal, 61(1), 5-13.

Monoghan, J. M., & Clement, J. (1999). Use of a computer simulation to develop mental simulations for understanding relative motion concepts. International Journal of Science Education, 21(9), 921-944.

Park, O. (1998). Visual displays and contextual presentations in computer-based instruction. Educational Technology Research and Development, 46(3), 37-50.

Ross, W., & Aukstakalnis, S. (1993). Virtual reality: Implications in engineering design graphics. The Engineering Design Graphics Journal, 57(2), 5-12.

Trethewey, S., & Belland, J. (1990). Effects of visual exercises on visualization skills in an introductory engineering graphics course. In D. G. Beauchamp, J. Clark-Baca, & R. A. Braden (Eds.), Investigating visual literacy (pp. 37- 49). Blacksburg, VA: International Visual Literacy Association.

Vandenberg, S. G. (1971). The Mental Rotations Test. Boulder: University of Colorado.

Vandenberg, S. G. (1975). Sources of variance in performance on spatial tests. In J. Eliot & N. J. Salkind (Eds.), Children’s spatial development (pp. 57- 66). Springfield, MA: Thomas.

Vandenberg, S. G., & Kruse, A. R. (1978). Mental Rotations, a Group Test of Three-Dimensional Spatial Visualization. Perceptual and Motor Skills, 47, 599-604.

Vandenberg, S. G., Kuse, A. R., Vogler, G. P. (1985). Searching for correlates of spatial ability. Perceptual and Motor Skills, 60, 343-350.

Wiebe, E. N. (1993). Visualization of three-dimensional form: A discussion of theoretical models of internal representation. Engineering Design Graphics Journal, 57(1), 18-28.

Yang, E., Andre, T., & Greenbowe, T. (2003). Spatial ability and the impact of visualization/animation on learning electrochemistry. International Journal of Science Education, 25(3), 329-349.