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Do high school chemistry examinations inhibit deeper level understanding of dynamic reversible chemical reactions?

机译:高中化学考试是否会抑制对动态可逆化学反应的更深入了解?

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Background and purpose: Chemistry examinations can favour the deployment of algorithmic procedures like Le Chatelier's Principle (LCP) rather than reasoning using chemical principles. This study investigated the explanatory resources which high school students use to answer equilibrium problems and whether the marks given for examination answers require students to use approaches beyond direct application of LCP. Sample: The questionnaire was administered to 162 students studying their first year of advanced chemistry (age 16/17) in three high achieving London high schools. Design and methods: The students' explanations of reversible chemical systems were inductively coded to identify the explanatory approaches used and interviews with 13 students were used to check for consistency. AS level examination questions on reversible reactions were analysed to identify the types of explanations sought and the students' performance in these examinations was compared to questionnaire answers. Results: 19% of students used a holistic explanatory approach: when the rates of forward and reverse reactions are correctly described, recognising their simultaneous and mutually dependent nature. 36% used a mirrored reactions approach when the connected nature of the forward and reverse reactions is identified, but not their mutual dependency. 42% failed to recognize the interdependence of forward and reverse reactions {reactions not connected approach). Only 4% of marks for AS examination questions on reversible chemical systems asked for responses which went beyond either direct application of LCP or recall of equilibrium knowledge. 37% of students attained an A grade in their AS national examinations. Conclusions: Examinations favour the application of LCP making it possible to obtain the highest grade with little understanding of reversible chemical systems beyond a direct application of this algorithm. Therefore students' understanding may be attenuated so that they are unable to use kinetic sub-micro level ideas which will support the building of deeper energetic conceptions at university.
机译:背景和目的:化学考试比使用化学原理推理更能促进Le Chatelier原理(LCP)等算法程序的部署。这项研究调查了高中生用来回答均衡问题的解释性资源,以及考试答卷所给予的分数是否要求学生使用超出直接应用LCP的方法。样本:该调查问卷是针对162名在伦敦三所成绩斐然的高中学习高等化学课程(16/17岁)的学生而设计的。设计和方法:对学生对可逆化学系统的解释进行归纳编码,以识别所使用的解释方法,并与13名学生进行访谈以检查其一致性。对有关可逆反应的AS级别考试问题进行分析,以确定寻求的解释类型,并将学生在这些考试中的表现与问卷答案进行比较。结果:19%的学生使用了整体性的解释方法:正确地描述了正向反应和反向反应的发生率时,就认识到它们的同时性和相互依赖性。当确定了正向反应和反向反应的关联性质时,有36%的人使用了镜像反应方法,但没有确定它们的相互依赖性。 42%的人没有认识到正向反应和反向反应的相互依赖性(反应不联系方法)。对于可逆化学系统的AS考试问题,只有4%的分数要求做出的回答超出了直接应用LCP或召回平衡知识的范围。 37%的学生在AS国家考试中获得A级。结论:考试有利于LCP的应用,这使得在不直接应用该算法的情况下,对可逆化学系统的了解很少,即可获得最高等级。因此,学生的理解力可能会减弱,因此他们将无法使用动力学的亚微观水平的思想,而这将支持在大学中建立更深入的能量概念。

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