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Visual Depiction And Transformation Of Time And Space Through Landscape Abstraction
(2024-07)
Wei, Jinqin
Time is never-ending, while space is created by the positioning of objects and the changes that occur with their movement. Landscapes are essentially all-encompassing, changing, and transient with the passage of time. The word “transient” is of Buddhist origin and suggests the changing state of everything in the world, which affects all aspects of human activity and the environment. The concept of the Japanese tea ceremony involving “one period, one encounter” originates from Chinese Zen Buddhism, which has conducted a fundamental exploration of “transient” and developed a philosophical context for studio practice research. Based on the philosophical context of transience and guided by two theories of spatio-temporal relations, ‘endurantism’ and ‘perdurantism’, this research incorporates Guo Xi’s ‘three distances’ method of observation, color symbolism, and Graham Gibbs’s Reflective Cycle into a studio practice to investigate how the relationship between time and space can be visually depicted and transformed through landscape abstraction. This study relies on years of personal experience and transient context to generate a personal understanding of the possibility that spatio-temporal relationships. This research suggests that time affects the real presence of landscape space, making it an abstract form of stillness, ambiguity, or change (conceptualized respectively as “freezing the moment,” “instantaneous blur,” and “time change”), thus making a new contribution to studio practice.
The Development And Effectiveness Of A PjBL Speaking Module In Enhancing English Speaking Proficiency And Learner Autonomy Among Efl Undergraduates In China
(2024-08)
Wang, Juan
The study examined the effectiveness of a PjBL speaking module on English-speaking proficiency (ES) and learner autonomy (LA). Following the “analysis, design, develop, implement, and evaluate” (ADDIE) module outlined by Branch (2009), the project-based learning (PjBL) speaking module integrated the gold standards for PjBL (GSPjBL) as proposed by Larmer et al. (2015) into the English as a foreign language (EFL) learning material. The study employed a quasi-experiment by purposively selecting 35 second-year undergraduates for the experimental group who had experienced the PjBL speaking module. In comparison, the control group comprised 35 second-year undergraduates who received traditional speaking module. The experimental and the control groups were on two campuses of a university respectively in China. Mixed methods were used to collect data through ES pre and post-test, LA pre- and post-questionnaire, and semi-structured interviews. The ANCOVA results showed that students’ vocabulary and grammar proficiency in the experimental group were significantly higher than those in the control group. At the same time, there was no significant difference between the experimental and control groups in post-pronunciation mean scores.
The Effectiveness Of The Production-Oriented Approach In Enhancing English Writing Achievement And Motivation Among Year 8 Students In China
(2024-07)
Wang, Wenxuan
English writing is particularly crucial for students at the basic education level. This study aims to address the current issues of poor writing achievement and low writing motivation among Chinese eighth-grade students by employing a production-oriented approach (POA). The research design followed the Explanatory Sequential (QUAN-Qual) Design of the mixed-methods approach, which the qualitative findings were used to help explain and support the quantitative results. The quantitative study employed purposive sampling to conduct a quasi-experimental study with 80 students, including 40 students in the experimental group who participated in eight weeks of POA. In the qualitative study, five students from the experimental group volunteered to participate in semi-structured interviews. The quantitative results of the writing test and MANCOVA analyzes showed that the experimental groups were significantly different (p <.05) from that of the control group in terms of language, content, and structure. Additionally, the questionnaire and independent sample t-test analyzes revealed that the writing motivation was significantly different (p <.05) for both intrinsic and extrinsic motivation.
Adsorption studies of heavy metals on activated carbon prepared from agricultural waste
(2018-03)
Muhamad Faizal bin Pakir Mohamed Latiff
Commercially available activated carbon (AC) is still considered expensive due to the use of non-renewable and relatively expensive starting material such as bituminous coal. Therefore, this study investigates the potential use of agricultural waste such as rubber seed coat (RSC) and corncob (CC) that available in Malaysia, as the precursor for the preparation of AC which can be applied for the removal of two types of heavy metal, which are Cu (II) and Zn (II) from aqueous solution. Physiochemical activation consisting of potassium hydroxide (KOH) impregnation plus carbon dioxide (CO2) gasification was used to prepare the ACs. The optimum preparation conditions of RSCAC-CU were found at activation temperature of 793 °C, activation time of 1h and KOH impregnation ratio (IR) of 2.46. As for RSCAC-ZN, the optimum preparation conditions were at activation temperature of 797 °C, activation time of 1h and IR of 2.61. Meanwhile, the optimum preparation conditions of CCAC-CU were found at activation temperature of 762 °C, activation time of 2.7h and IR of 3.25. For CCAC-ZN, the optimum reparation conditions were at activation temperature of 768 °C, activation time of 3h and IR of 3.5. All the activated carbons prepared were high BET surface area (>500 m2/g) and pore volume (>0.41 m3/g). RSCAC and CCAC demonstrated homogeneous and heterogeneous type pore structures, respectively. The effects of adsorbate initial concentration (10-100 mg/L), contact time, solution temperature (30-60 °C), solution pH (2-6), isotherms and kinetics of the adsorption systems were evaluated through batch adsorption test. The Cu (II) and Zn (II) adsorption uptakes increased with increasing initial concentration and optimum contact time. Adsorptions of Cu (II) and Zn (II) on all ACs were best fitted by the Freundlich isotherm model. Adsorption kinetics of Cu (II) and Zn (II) followed pseudo-second-order on all the ACs. Fixed bed study showed that the exhaustion period for Zn (II) was greater than Cu (II) and the increase in bed heights resulted in higher exhaustion period.
Comparative Analysis Of Nucleic Acid Residues In Core Streptavidin Using Three Isolation Techniques
(2024-08)
Alias, Nurul Nadia Mohamad
Recombinant core streptavidin (cSAV) is a truncated non-glycosylated tetrameric SAV which has been widely utilised in a wide range of biotechnological applications. Due to cSAV commercial importance, recombinant cSAV has been extensively produced using expression host system such as Escherichia coli to high expression level. Nevertheless, accumulation of cSAV in high levels results in the formation of insoluble non-functional inclusion bodies (IBs) which requires efficient downstream processing steps to overcome. This process involves isolation of IBs from cell lysates through combination of cell disruption techniques, multiple centrifugation steps, IBs solubilization and refolding to acquire correctly refolded cSAV. However, during IBs preparation, presence of cellular contaminants such as residual nucleic acids is inevitable and can affect subsequent refolding process. Hence, in this study, the IBs isolation process from our previous group (Process A) was improved to obtain high quality cSAV IBs in an effort to attain refolded cSAV with minimal contaminants. The improvements were enhanced with the incorporation of quantitative polymerase chain reactions (qPCR) for residual DNAs monitoring. By employing combined cell disruption approaches such as extensive sonication (Process B) and addition of benzonase nuclease (Process C), cSAV IBs with 99% removal of residual DNAs were achieved. A 10% increment of cSAV refolding yield (72%) and 83% reduction of residual DNAs from refolding of 1 mg cSAV IBs were observed under extensive sonication. Despite perceiving the least residual DNAs, refolding of cSAV was found not affected and the activity of refolded cSAV was not compromised.