The main aim of this research was to investigate metacognitive strategies through reading comprehension practice by first year students of engineering departments. The students of four engineering departments were selected as the participants in this research work. The qualitative instrument based on focus group interview was used for collecting data from first year students of four engineering departments to know the perceptions and their needs to develop reading comprehension through metacognitive strategies. The researchers developed interview questions for this study. These questions were validated by two experts of faculty of cognitive science and human development at university Malaysia Sarawak. The researchers obtained permission from the chairmen of four departments at a university in Pakistan. Almost 8 groups consisting of 5 informants in each participated in this research. The data was documented by using audio-tape; NVivo software, version 8 was used to organize data for obtaining main themes of the study. This research generated the most important themes for the interpretation of the results. The study contributed the most promising results which revealed that more than half of these groups used metacognitive strategies in classroom reading practice while less than half of groups did not use strategies and remained poor in reading comprehension. This research suggested administrators, teachers, and curriculum designers to design and implement reading comprehension courses and syllabus for first year engineering students.
In this research work, thermal properties of plain woven fabrics generated from regenerated bamboo and cotton fiber blended yarns were investigated. Seven mixtures of fiber (100% bamboo, 100% cotton, 10:90 bamboo: cotton, 20:80 bamboo: cotton, 30:70 bamboo: cotton, 40:60 bamboo: cotton and 50:50 bamboo: cotton) were developed to create 60 Tex ring spun yarn. The warp yarns were used as 100% regenerated bamboo and the bamboo: cotton blends were used alternatively in weft to produce plain woven fabrics. The plain structured woven fabrics show eminent thermal comfort properties with the blending of regenerated bamboo fibers. The air permeability of 100% regenerated bamboo fiber was recorded higher than the compared blends; the increased key factor contents of bamboo changed the air properties of the fabric. Furthermore, plain woven fabric of bamboo/cotton (50/50) has shown greater thermal conductivity and heat retention properties. The work reported in this paper is ensuring highpoints of thermal comfort properties of regenerated bamboo (100%) and cotton (100%) with plain woven structured fabrics, and potentially, the fabrics can be used for winter suiting apparel products.