Development of system thinking skills in the context of earth system education   总被引：1，自引：0，他引：1  

Orit Ben‐Zvi Assaraf  Nir Orion 《科学教学研究杂志》2005,42(5):518-560

The current study deals with the development of system thinking skills at the junior high school level. The sample population included about 50 eighth‐grade students from two different classes of an urban Israeli junior high school who studied an earth systems‐based curriculum that focused on the hydro cycle. The study addressed the following research questions: (a) Could the students deal with complex systems?; (b) What has influenced the students' ability to deal with system perception?; and (c) What are the relationship among the cognitive components of system thinking? The research combined qualitative and quantitative methods and involved various research tools, which were implemented in order to collect the data concerning the students' knowledge and understanding before, during, and following the learning process. The findings indicated that the development of system thinking in the context of the earth systems consists of several sequential stages arranged in a hierarchical structure. The cognitive skills that are developed in each stage serve as the basis for the development of the next higher‐order thinking skills. The research showed that in spite of the minimal initial system thinking abilities of the students most of them made some meaningful progress in their system thinking skills, and a third of them reached the highest level of system thinking in the context of the hydro cycle. Two main factors were found to be the source of the differential progress of the students: (a) the students' individual cognitive abilities, and (b) their level of involvement in the knowledge integration activities during their inquiry‐based learning both indoors and outdoors. © 2005 Wiley Periodicals, Inc.  相似文献   

OPTING OUT OF EDUCATION: YODER, MOZERT, AND THE AUTONOMY OF CHILDREN     

Rob Reich 《Educational theory》2002,52(4):445-461

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Measuring Jews in Motion     

Zvi Bekerman  Sue Rosenfeld 《Journal of Jewish Education》2013,79(3):196-215

Jewish educators are expected not only to imbue their students with Jewish knowledge but with Jewish feelings and Jewish actions as well—in short, with Jewish identity. However, in spite of a growing understanding among researchers that identity is fluid and dynamic, many of the traditional methods for assessing Jewish identity reflect essentialist concepts of identity that assume Jews and their Jewishness remain unchanging across various contexts. Our intention in this article is to review briefly some of the ways in which traditional methods of studying Jewish identity reveal problematic conceptualizations, and to suggest an alternative that seems to us more in keeping with constructivist concepts of identity.  相似文献   

ARE NON‐OBSERVANT ISRAELI JEWS HEBREW SPEAKING “GOYIM”? Constructivist Cultural Perspectives     

Zvi Bekerman  Marc Silverman 《Journal of Jewish Education》2013,79(1-2):41-49

In order to continue being an authentic Jew, the secular Israeli Jew must be knowledgeable of the Jewish religious heritage. If he is an ignoramus regarding Jewish sources, unattuned to their substance, he approaches the condition of being an Hebrew speaking Goy (Hertzberg, 1995; 7).  相似文献   

A Social Ecological Framework: Counselors' Role in Improving Student Athletes' Help‐Seeking Behaviors     

Aviry L. Reich  Jeffrey J. Milroy  David L. Wyrick  Stephen P. Hebard 《Journal of College Counseling》2021,24(1):81-96

Student athletes' demands increase their risk for experiencing mental health concerns (Ryan et al., 2018). Risk factors for student athletes include coping with athletic success and failure; balancing dual roles; dealing with identity confusion; and experiencing isolation, injury, career termination, and burnout (Beauchemin, 2012; G. T. Brown, 2014). Using the social ecological model, we review factors that interfere with student athletes' help‐seeking behaviors and propose recommendations for the ways counselors can address these barriers in the roles of educator, advocate, and therapist.  相似文献   

Social Information Processing in Compliance Situations by Mothers of Behavior-Problem Boys   总被引：3，自引：0，他引：3  

Zvi Strassberg 《Child development》1995,66(2):376-389

This investigation examined differences between mothers of behavior-problem boys (MBP; n = 20) and mothers of average boys (MAB; n = 20) in processing information in compliance situations (mean ages; mothers = 30 years, children = 8 years). Mothers responded to videorecorded stimuli of child behavior cues. Compliant and oppositional stimuli were clear regarding whether the child was going to obey the mother; however, bargaining and complaining were ambiguous. MBPs made greater attributions of defiant intent toward the child and experienced more anger than did MABs in ambiguous stimulus situations. MBPs also expected more resistance from the child and experienced more anxiety than did MABs, in all stimulus situations (ambiguous and clear). Differences between group mean processing scores were greater under conditions of stimulus ambiguity than under conditions of stimulus clarity. Findings are discussed in terms of the interface of mother-child relationship history and the child's current behavioral cues.  相似文献   

Fiatland: An Analogy between Mathematics and Physics     

Karin Reich 《Science & Education》2007,16(6):625-636

Before the 19th century the idea of more than three dimensions was exceptional. During the 19th century, however, geometry was revolutionized and new branches were developed. This revolution also created the idea of the possibility of a n-dimensional geometry or space; flatland, i.e. n = 2, was a consequence of this new thinking. In 1884 the clergyman Edwin Abbott and the mathematician Charles Hinton published their still-famous flatland stories. In the 20th century authors also included modern physics as well as computer science in flatland stories.  相似文献   

Understanding Students’ Perceptions of the Nature of Science in the Context of Their Gender and Their Parents’ Occupation     

Emran  Ameer  Spektor-levy  Ornit  Paz Tal  Ofra  Ben Zvi Assaraf  Orit 《Science & Education》2020,29(2):237-261

Science & Education - A thorough understanding of the concept of the nature of science (NOS) is essential to the development of scientific literacy among students, as it provides the students...  相似文献   

System thinking skills at the elementary school level   总被引：1，自引：0，他引：1  

Orit Ben‐Zvi Assaraf  Nir Orion 《科学教学研究杂志》2010,47(5):540-563

This study deals with the development of system thinking skills at the elementary school level. It addresses the question of whether elementary school students can deal with complex systems. The sample included 40 4th grade students from one school in a small town in Israel. The students studied an inquiry‐based earth systems curriculum that focuses on the hydro‐cycle. The program involved lab simulations and experiments, direct interaction with components and processes of the water cycle in the outdoor learning environment and knowledge integration activities. Despite the students' minimal initial system thinking abilities, most of them made significant progress with their ability to analyze the hydrological earth system to its components and processes. As a result, they recognized interconnections between components of a system. Some of the students reached higher system thinking abilities, such as identifying interrelationships among several earth systems and identifying hidden parts of the hydrological system. The direct contact with real phenomena and processes in small scale scenarios enabled these students to create a concrete local water cycle, which could later be expanded into large scale abstract global cycles. The incorporation of outdoor inquiry‐based learning with lab inquiry‐based activities and knowledge integration assignments contributed to the 4th grade students' capacity to develop basic system thinking abilities at their young age. This suggests that although system thinking is regarded as a high order thinking skill, it can be developed to a certain extent in elementary school. With a proper long‐term curriculum, these abilities can serve as the basis for the development of higher stages of system thinking at the junior–high/middle school level. © 2009 Wiley Periodicals, Inc. J Res Sci Teach 47: 540–563, 2010  相似文献   

Northeast Under/graduate Research Organization for Neuroscience (NEURON): Our 13th Conference for Neuroscience Trainees and Educators          下载免费PDF全文

Jay P. McLaughlin  Stacey Gomes  Angela Seliga  Sharon Ramos-Goyette  Amy Morrison  Christian G. Reich    Cheryl A. Frye 《CBE life sciences education》2009,8(2):111-113

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