College students’ prior knowledge and alternative conceptions regarding minerals

Q1 Social Sciences

Journal of Geoscience Education Pub Date : 2023-05-18 DOI:10.1080/10899995.2023.2205990

A. Manzanares, Steven W. Anderson, Kevin J. Pugh

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引用次数: 1

Abstract

Abstract The mineral identification lab is typically the entry level college student’s initial hands-on introduction to minerals. Our research focused on identifying alternative mineralogy conceptions that students bring to an introductory geology course and investigating the origins and nature of these conceptions. We identified a number of alternative conceptions and to help make sense of these ideas we grouped them into four categories: (1) differences between minerals and rocks (e.g., they are the same), (2) mineral composition (e.g., lighter crystals contain more air), (3) where minerals form (e.g., caves), and (4) mineral surface features. The fourth category encompassed alternative conceptions based on immediately observable features and included six daughter categories: (1) mineral characteristics (e.g., all are smooth and crystal-like), (2) origin of planar surfaces (e.g., were cut), (3) sedimentary knowledge (e.g., minerals like mica are formed from layering), (4) mineral relations (e.g., minerals of similar shape are related), (5) environmental impacts (e.g., during formation sand was incorporated to turn the mineral orange), and (6) age of minerals (e.g., age can be determined by fragility). Further, we identified three main knowledge sources from which students construct alternative conceptions: (1) prior science courses, (2) outdoor activities, and (3) jewelry and solar and water impacts. Our research adds to previous work on the alternative conceptions held by novice earth science students. Students’ answers reflect how their knowledge can contribute to creating alternative conceptions.

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大学生对矿物的先验知识与另类观念

矿物鉴定实验室是典型的入门级大学生对矿物的初步实践介绍。我们的研究重点是确定学生带入入门地质学课程的替代矿物学概念，并调查这些概念的起源和性质。我们确定了一些可供选择的概念，为了帮助理解这些想法，我们将它们分为四类:(1)矿物和岩石之间的差异(例如，它们是相同的)，(2)矿物成分(例如，较轻的晶体含有更多的空气)，(3)矿物形成的地方(例如，洞穴)，以及(4)矿物表面特征。第四个类别包含基于直接可观察特征的替代概念，包括六个子类别:(1)矿物特征(例如，所有矿物都是光滑和晶体状的)，(2)平面的起源(例如，被切割)，(3)沉积知识(例如，云母等矿物是由分层形成的)，(4)矿物关系(例如，形状相似的矿物是相关的)，(5)环境影响(例如，地层中加入了沙子使矿物变成橙色)，以及(6)矿物的年龄(例如，年龄可以通过脆性来确定)。此外，我们确定了学生构建替代概念的三个主要知识来源:(1)先前的科学课程，(2)户外活动，以及(3)珠宝和太阳能和水的影响。我们的研究补充了之前关于地球科学新生持有的另类概念的工作。学生的回答反映了他们的知识如何有助于创造不同的概念。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Geoscience Education Social Sciences-Education

CiteScore

3.20

自引率

0.00%

发文量

期刊介绍： The Journal of Geoscience Education (JGE) is a peer-reviewed publication for geoscience education research, and serves as an international forum for research concerning the pedagogy, assessment, and philosophy of teaching and learning about the geosciences and related domains. JGE is a publication of the National Association of Geoscience Teachers, a non-profit, member-driven organization that supports a diverse, inclusive, and thriving community of educators and education researchers to improve teaching and learning about the Earth.