The Use of Webquests in Developing Inquiry Based Learning: Views of Teachers and Students in Qatar
 Qatar National Research Strategy, “Qatar National Research Strategy (QNRS 2012): Executive Summary,” Retrieved from https://www.qnrf.org/Portals/0/Download/QNRS_2012_Summary_Version_07082014.pdf.
 Z. Said, and H. Friesen, “Topic article: The impact of educational reform on science and mathematics education in Qatar,” Paper presented at the International Interdisciplinary Conference, (AIIC). Azores, Portugal, April 2013.
 S. BouJaoude, “Achievement levels of new school project students in grades 1 to 5 in Arabic, math, and science.” Project funded by the Education Development Center Inc., Newton, MA, USA, 2003.
 J. A. C. Hattie, “Visible learning: A synthesis of over 800 meta-analyses relating to achievement” Abingdon, UK, Routledge, 2009.
 J. S. Lederman, et al., “Meaningful assessment of learners’ understanding about scientific inquiry – the views of scientific inquiry (VASI) questionnaire,” Journal of Research in Science Teaching, vol.51, no.1, pp. 65-83, 2014.
 K. Maas, and M. Artigue, “State of the art of the implementation of inquiry-based learning in day-to-day teaching,” ZDM-The International Journal on Mathematics Education, vol. 45, no. 6, pp. 779-795, 2013.
 B. Dodge, “WebQuests: A technique for internet-based learning,” Distance Educator, vol. 1, no. 2, pp. 10-13, 1995.
 N. Calder, “Processing mathematics through digital technologies: The primary years,” Rotterdam, The Netherlands, Sense Publishers, 2011.
 Salsovic, “Integrating technology into the developmental mathematics classroom: A WebQuest,” National Association for Developmental Education Digest, vol. 3, no. 1, pp. 21-28, 2007.
 G. Wells, “Dialogic inquiry in education: building on the legacy of Vygotsky. In C. D. Lee and P. Smagorinsky (Eds.) Vygotskian perspectives on literacy research, New York, NY, Cambridge University Press, pp. 51-85, 1999.
 Y-Y. Chan, H-F. Lam, H. Yang, K-P. Mark, and C-H. Leung, “Hybrid inquiry-based learning.” In F. L. Wang, J. Fong, and R. C. Kwan, (Eds.) Handbook of Research on Hybrid Learning Models: Advanced Tools, Technologies and Applications. Hershey, NY, Information Science Reference, pp. 203-227, 2010.
 H. Beetham, and R. Sharpe, “Rethinking Pedagogy for a Digital Age: Designing for 21st Century Learning,” New York, NY, Routledge, 2013.
 Geiger et al., “Transformations of Teaching and Learning Through Digital Technologies,” In K. Makar et al. (Eds.) Research in Mathematics Education in Australasia 2012-2105, pp. 255-280, 2016.
 Ministry of Education and Higher Education Qatar (2018) “Curriculum Standards office. Retrieved from http://www.sec.gov.qa/En/SECInstitutes/EducationInstitute/Offices/Pages/CurriculumStandardsOffice.aspx.
 C. Murphy, A. Abu-Tineh, N. Calder , and N. Mansour, “ Implementing Dialogic Inquiry mathematics and science classroom; Challenges and provocation,” Teaching and Curriculum, vol. 18, no 1, pp. 33-40, 2018.
 C. Leys, and L. Bryan, “Co-constructing inquiry-based science with teachers: Essential research for lasting reform,” Journal of Research in Science Teaching, vol. 38, no. 6, pp. 631-645, 2001.
 Strauss, and J. Corbin, “Basics of qualitative research: Grounded theory procedures and techniques,” Newbury Park, CA, Sage Publications, 1990.