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The development and evaluation of an outline of a course in physical science for eleventh and twelfth year studentsEverett, Arthur Wilson 01 January 1941 (has links)
During the years since 1929 it has been the privilege of the writer to serve as a teacher in the science department of the high school at Stockton, California. During those years he has been associated with students of all four years of the high school, with a slight majority of the time spent with students of the first two years of high school. Inevitably, certain observations occurred. With those observations, certain convictions, beliefs, and desires to assist, developed concerning the students who pass through our schools.
It is only natural, therefore, that one in such a position should be imbued with the desire to do something about it". It is with the outgrowth of that desire that the following pages deal. Therefore, it is deemed of value to enumerate a few of the observations which led to the formulation of the outline with which the pages that follow are to be concerned. 1. Many students have need for a broad, more comprehensive, and generally non-mathematical background in science, as considered in a purely personal and cultural aspect. 2. Many of the students when in the ninth grade have the intelligence, but not the maturity, to grasp some of the ideas and facts presented in the ninth grade general science. 3. Many highly intelligent students, capable of genuine culture, do not reach college. However, they are in serious need of a general scientific background for later thought, reading, interest, and general use in everyday life. 4. Many students who do go to college will not major in the scientific field and, therefore, do not need merely one special science in high school, but one in whose study there is the possibility of broader application. 5. Many students in the upper classes in high school need a chance to do exploratory work in the field of science in an attempt to orient themselves in choosing a vocation. 6. Many students who will go to college are forced to take a particular science when both their needs and interest suggest a more general contact with science.
It seems quite evident that the students mentioned above are to be found in all classes in the high school. However, the majority are in what may be called the middle fifty percent, that is, the two quartiles between the extremely bright on the one hand and those in the quartile of lowest ability. It is toward the better student of this middle group that attention is directed chiefly.
Further, it is this group which has been neglected grossly in the past. In the early days when our public school system was in process of development, the schools were chiefly concerned with training men for the law, medicine, or for the ministry. This gave attention to a very select group and placed emphasis on the classics and specialized scientific field. To return to the type of student served by the schools, not until the early nineteen twenties did the poorer student come in for this share in attention and concern. The educational trend of that decade might be compared to a pendulum, which, having been started at the peak of its swing, rushes past the central point to become almost suspended for a time on the opposite side, and then to oscillate between these two extremes--attention to the very able student on the one hand and concern for the "slow" student and the "problem" child on the other hand. Therefore, is not action long overdue in caring for the needs, desires, and abilities of the great middle group, which, in the last analysis, go to make up the backbone our national life, thought, and culture? It is with the intention of serving this group and giving it some of the attention which it has been denied for so long, that this outline was developed.
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Cognitive processes in the acquisition of knowledge from science instruction in ZimbabweChitepo, Thokozile, 1961- January 1987 (has links)
No description available.
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Factors affecting the use of science equipment in the teaching of unit8 "Making use of electricity" of integrated science in Hong Kong aidedsecondary schoolsLi, Wai-man., 李偉文. January 1990 (has links)
published_or_final_version / Education / Master / Master of Education
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Organization of a course in science for the Chanute Junior High SchoolGrigg, Edward William. January 1937 (has links)
Call number: LD2668 .T4 1937 G72
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A survey of the subject matter of general science in the junior high schools in KansasMoulden, Leonard Housden. January 1948 (has links)
Call number: LD2668 .T4 1948 M68 / Master of Science
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A study of implementation of the intermediate science curriculum study in KansasHoladay, Stephen Edward. January 1984 (has links)
Call number: LD2668 .T4 1984 H635 / Master of Science
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Comparison of teaching approaches and strategies : how do the use of traditional teaching and flipped classroom teaching techniques affect the attitudes and attainment of science students in an international school in Hong Kong?Couch, Andrew Charles January 2014 (has links)
Education is an evolving process for teachers. In order to move away from the generally accepted face to face delivery method and adapt to upcoming trends in education, teachers are implementing the flipped classroom as a means to deliver curriculum content to their students.
During this study a comparison between a flipped classroom and traditional lecture style teaching approaches was conducted within a Hong Kong based International School in order to gain insight into the effects on students attitude and academic attainment in science. The comparison was conducted using participants from two year 9 (13-14 year old) general science classes. One class conducted their science lessons for the academic year using the flipped classroom approach. Within this structure a Virtual Learning Environment (VLE) was used as the platform for delivering the lesson content. Students were tasked to produce questions and notes based on the online material. The second class, completed their science lessons using a traditional lecture based approach. In these lessons, the teacher delivered content via a lecture and question and answer sessions. Both classes completed investigations and practical activities during the lessons with the flipped classroom class expected to contribute to the design of investigations and the traditional class following provided instructions.
In order to determine the effects of the teaching strategies employed during the study on the students attitude and attainment in science, pre and post course attitudinal surveys and pre and post topic tests were presented to the students. The quantitative data was analysed using ANOVA tests and qualitative data responses were interpreted for what the responses could infer or imply.
This research has found that the implementation of a flipped learning teaching strategy can be a positive and useful instrument for teachers to use. This strategy is still relatively in its infancy and will continue to develop along with the ever changing world of technology. With the findings relating to the effects on attitude and attainment largely being positive but not necessarily significant, it would appear as though a mix of strategies needs to be employed by teachers in order to facilitate the variety of learner approaches that are experienced. / published_or_final_version / Education / Master / Master of Education
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Group achievement tests developed for two basic processes of AAAS Science--a process approachBeard, Jean 07 August 1969 (has links)
The major purpose of the study was to determine whether
science process achievement tests could be developed for administration
to groups of primary grade students. Six Basic Science Process
Tests (BSPT) were constructed as samples of the format proposed.
Each BSPT was designed to assess one of the basic science processes
taught in the first three parts of the 1967 edition of Science--A
Process Approach (Sci-APA). The test items were projected 35 mm
color slides with a tape recording which asked questions and controlled
slide advancement.
Pilot studies in kindergarten, and first and second grades with
320 students in Corvallis and Portland, Oregon during the spring of
1968 contributed to the development of general testing procedures
and directions for training students to use BSPTs. Preliminary
indications of item performance and time requirements were determined
from administrations of groups of validated items to students
just completing a year of Sci-APA study at the minimum expected
grade levels. The sample BSPTs were assembled and synchronized
for automatic administrations to students who had studied the 1967
edition of Sci-APA.
Measuring and Classifying BSPTs were administered twice to
classes of first, second and third graders in Park Falls, Phillips
and Rhinelander, Wisconsin during September, 1968. The 850
students yielded more than 100 students who took each BSPT at the
minimum expected grade level who had Sci-APA the previous year,
and more than 100 students in the same grades who had no Sci-APA
experience. Test-retest score pairs were correlated for each
experience group to give reliability estimates for each BSPT.
The major question was whether groups of primary grade students
could be assessed with the tests developed concerning their
science process achievements. The administrations of the standardized,
synchronized BSPTs seemed acceptable with student groups.
Two of the six BSPTs were accepted as reliable on the basis of test-retest
correlations. Thus, it was concluded that successful educational
measurement instruments can be constructed to assess science
process achievement using this format.
A second question considered whether there was a difference in
BSPT results between students who had studied Sci.-APA for a year
and those who had not. Three of the six BSPTs yielded significantly
higher means for the Sci-APA trained groups. Both of the reliable
BSPTs which assessed process achievements taught in Part A of
Sci-APA produced significantly higher means for Sci-APA students. / Graduation date: 1970 / Supplemental material (tests, slides and audio tapes) can be accessed and used on-site at the Valley Library.
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Patterns of content representation.Tomanek, Debra J. January 1991 (has links)
This study was conducted to track content as representations in the experienced curriculum of a secondary environmental science class. The qualitative analyses involved both the identification and the tracking of pieces of content within and across curriculum occasions. Curriculum and instructional features were found to exist as patterns as content was represented in curriculum occasions. The patterns included an evolution from one or few representations to multiple representations. This evolution was commonly facilitated by the teacher during discourse episodes in which students' comments and questions were utilized in order to introduce alternative or different representations of pieces of content. Patterns also existed in the ways in which the teacher's knowledge of the students, the content, and the curriculum were related to representations of content. The findings suggest that content, embedded in the curriculum occasions in which it is represented, can be studied in an ecologically valid manner. Also, the close association found to exist between teacher knowledge and content representation suggests that arbitrary separations of the two in classroom inquiries may be inappropriate.
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Using CBL 2 technology to promote inquiry and to improve interpretation of graphs in high school scienceTravers, David Alan 10 April 2008 (has links)
No description available.
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