Reaching Young Pupils With Technology

1991 ◽  
Vol 38 (6) ◽  
pp. 51-55
Author(s):  
Jane F. Schielack
Keyword(s):  
Mathematics Curriculum ◽  
Technology In The Classroom ◽  
Mathematical Concepts ◽  
Evaluation Standards ◽  
Primary Level ◽  
Mathematics Standards ◽  
Grade Levels ◽  
Use Of Technology ◽  
Concrete Representations

Recommendations in such current publications as NCTM's Curriculum and Evaluation Standards for School Mathematics (Standards) (1989) and the National Research Council's Everybody Counts (1989) emphasize the full use of technology in the classroom at all grade levels. But what is the role of technology in the early grades? How can computers best be used to support primary-level mathematics instruction? Where does the use of the calculator fit into the primary-level pupil's development of mathematical concepts? How can we justify the abstract nature of calculator activities in a primary-level mathematics curriculum built on the needs of young pupils to experience concrete representations of mathematical concepts?

scholarly journals THE IMPORTANCE OF EDUCATIONAL TECHNOLOGY IN TEACHING

2015 ◽  
Vol 3 (1) ◽  
pp. 111-114
Author(s):  
Lazar Stošić
Keyword(s):  
Educational Technology ◽  
Information And Communication Technologies ◽  
Communication Technologies ◽  
Technology In Education ◽  
Technology In The Classroom ◽  
Use Of Technology ◽  
Technology In Teaching ◽  
Teachers And Students ◽  
Information And Communication

Today, more than ever, the role of educational technology in teaching is of great importance because of the use of information and communication technologies. With the help of various applications for distance education, the Internet, teachers, and students themselves, they see the advantage of educational technology. The question is whether schools and teachers themselves are ready for the use of technology in education and whether they are aware of its benefits? In this paper, we try to give an overview of the importance and use of educational technology in the classroom.

Activating Assessment Alternatives in Mathematics

1992 ◽  
Vol 39 (6) ◽  
pp. 24-29 ◽  
Author(s):  
David J. Clarke
Keyword(s):  
Mathematics Education ◽  
Mathematics Teaching ◽  
Teaching Practice ◽  
Mathematics Curriculum ◽  
Teaching Program ◽  
Evaluation Standards ◽  
Pencil And Paper ◽  
And Mathematics ◽  
Assessment Strategies

The Curriculum and Evaluation Standards for School Mathematics (NCTM 1989, 1, 2) emphasizes the role of evaluation “in gathering information on which teachers can base their subsequent instruction.” This strong sense of assessment's informing instructional practice is also evident in the materials arising from the Australian Mathematics Curriculum and Teaching Program (Clarke 1989: Lovitt and Clarke 1988, 1989). Both projects offer their respective mathematics-education communities a set of goal much broader than those traditionally conceived for mathematics instruction. The adoption of these goals by mathematics teachers and school systems demands the use of new assessment strategies if the restructuring of the mathematics curriculum and mathematics-teaching practice is to be effected. Mathematics education must not restrict itself to those goals that can be assessed only through conventional pencil-and-paper methods.

Do the Standards Go Far Enough? Power, Policy, and Practice in Mathematics Education

1992 ◽  
Vol 23 (5) ◽  
pp. 412-431 ◽  
Author(s):  
Michael W. Apple
Keyword(s):  
Mathematics Education ◽  
Educational Reform ◽  
Mathematical Knowledge ◽  
Mathematics Curriculum ◽  
Professional Standards ◽  
Teaching Mathematics ◽  
Policy And Practice ◽  
Conservative Movement ◽  
Evaluation Standards

Although NCTM's Curriculum and Evaluation Standards for School Mathematics (1989) and Professional Standards for Teaching Mathematics (1991) are generating considerable interest, there has been little discussion of their ideological and social grounding and effects. By placing the Standards within the growing conservative movement in education, this paper raises a number of crucial issues about the documents, including the depth of the financial crisis in education and its economic and ideological genesis and results; the nature of inequality in schools; the role of mathematical knowledge in our economy in maintaining these inequalities; the possibilities and limitations of a mathematics curriculum that is more grounded in students' experiences; and the complicated realities of teachers' lives. Without a deeper understanding of these issues, the Standards will be used in ways that largely lend support only to the conservative agenda for educational reform.

Animating Geometry with Flexigons

1994 ◽  
Vol 87 (8) ◽  
pp. 602-606
Author(s):  
Ruth McClintock
Keyword(s):  
Language Skills ◽  
School Mathematics ◽  
Professional Standards ◽  
Physical Models ◽  
Teaching Mathematics ◽  
Mathematical Concepts ◽  
Evaluation Standards ◽  
Grade Levels ◽  
Conversation Piece

Viewing mathematics as communication is the second standard listed for all grade levels in the NCTM's Curriculum and Evaluation Standards for School Mathematics (1989). This emphasis underscores the need for nurturing language skills that enable children to translate nonverbal awareness into words. One way to initiate discussion about mathematical concepts is to use physical models and manipulatives. Standard 4 of the Professional Standards for Teaching Mathematics (NCTM 1991) addresses the need for tools to enhance discourse. The flexigon is a simple and inexpensive conversation piece that helps students make geometric discoveries and find language to share their ideas.

Implementing the Standards: Building key Concepts for Calculus in Grades 7–12

1990 ◽  
Vol 83 (7) ◽  
pp. 532-540
Author(s):  
Elizabeth A. Jockusch ◽  
Patrick J. Mcloughlin
Keyword(s):  
Conceptual Understanding ◽  
Mathematics Curriculum ◽  
School Mathematics ◽  
Evaluation Standards ◽  
Mathematics Standards ◽  
Key Concepts ◽  
Natural Extensions

The NCTM'S Curriculum and Evaluation Standards for School Mathematics (Standards) (1989) recommends that the mathematics curriculum should include informal explorations of calculus concepts. These concepts can be developed as natural extensions of topics that students have already encountered. The approach should focus on exploring concrete problems in a way designed to build conceptual understanding of key ideas and to offer an introduction to some interesting applications.

The Area Model: Building Mathematical Connections

2020 ◽  
Vol 113 (3) ◽  
pp. 186-195
Author(s):  
Alyson E. Lischka ◽  
D. Christopher Stephens
Keyword(s):  
Model Building ◽  
Mathematics Curriculum ◽  
Mathematical Concepts ◽  
Area Model ◽  
Grade Levels ◽  
Mathematical Connections

The area model for multiplication can be used as a tool to help learners make connections between mathematical concepts that are included in mathematics curriculum across grade levels. We present ways the area model might be used in teaching about various concepts and explain how those ideas are connected.

scholarly journals The Impact of Integrating Weblogs into an ESP Classroom

2013 ◽  
Vol 9 (1) ◽  
pp. 46-62 ◽  
Author(s):  
Luiza Zeqiri
Keyword(s):  
Learning Community ◽  
Collaborative Work ◽  
Technology In The Classroom ◽  
Good Opportunity ◽  
Self Reflection ◽  
Analysis And Evaluation ◽  
Teacher Student ◽  
Use Of Technology ◽  
The Impact

Abstract Researchers have investigated the role of information technology (IT) in learning but there is a need for studies investigating the impact of Blogging distinctively. There are previous studies which support the use of technology in the classroom and researchers who are arguing the opposite by expressing their concerns related to technology integration into the curriculum. This paper attempts to explore the impact and effectiveness of using weblogs in universities, particularly in English for Specific Purposes (ESP) environment. The participants in this study were 25 second and third year Communication Sciences students attending ESP one and two courses. Qualitative and quantitative approaches were used for the data collection. Evidence was gathered in the form of student questionnaires, weblogs and teacher’s analysis and evaluation of the process. The findings indicate that ESP students would not use their blogs effectively unless they are monitored and motivated by their teacher. It can be suggested that blogs can be used as an educational tool in different ESP courses and not only with ESP for Communication Sciences because their usage enhances student-student and teacher-student interaction and promotes discussions. Moreover, using Blogs in the classroom proved to be a good opportunity to promote students’ self reflection, peer evaluation skills and also their critical thinking ability. Finally, weblogs encourage collaborative work; establish a rapport between the learners and the teacher, by building a learning community and enhancing learner autonomy

Technology Tips: A Mathematical Look at a Free Throw Using Technology

1996 ◽  
Vol 89 (9) ◽  
pp. 774-779
Author(s):  
Charles Vonder Embse ◽  
Arne Engebretsen
Keyword(s):  
Problem Solving ◽  
Real World ◽  
Mathematics Curriculum ◽  
Mathematical Problem ◽  
Mathematical Problem Solving ◽  
Mathematical Concepts ◽  
Evaluation Standards ◽  
Free Throw ◽  
Problem Situations ◽  
Real World Problem

Technology can be used to promote students' understanding of mathematical concepts and problem-solving techniques. Its use also permits students' mathematical explorations prior to their formal development in the mathematics curriculum and in ways that can capture students' curiosity, imagination, and interest. The NCTM's Curriculum and Evaluation Standards for School Mathematics (1989) recommends that “[i]n grades 9–12, the mathematics curriculum should include the refinement and extension of methods of mathematical problem solving so that all students can … apply the process of mathematical modeling to real-world problem situations” (p. 137). Students empowered with technology have the opportunity to model real-world phenomena and visualize relationships found in the model while gaining ownership in the learning process.

Our Diets May Be Killing Us

1995 ◽  
Vol 1 (5) ◽  
pp. 376-382
Author(s):  
Brenda K. J. Shannon
Keyword(s):  
Real World ◽  
Mathematics Curriculum ◽  
School Mathematics ◽  
Evaluation Standards ◽  
Knowledge And Skills ◽  
Everyday Lives ◽  
Grade Levels ◽  
Real World Applications ◽  
School Day ◽  
Class Period

A push seems to be on for more real-world applications in the mathematics curriculum at all grade levels. Recommendations from such sources as the NCTM's Curriculum and Evaluation Standards for School Mathematics (1989) and the National Research Council's Everybody Counts (1989) advocate making mathematics more than just a subject taught one class period of each school day. The time has come to bring mathematics out of the classroom and show the students that the knowledge and skills from mathematics can be beneficial in their everyday lives. But how do we, as educators, actually accomplish this goal?

Technology Tips: Technology and the Mathematics Curriculum: Some New Initiatives

1995 ◽  
Vol 88 (3) ◽  
pp. 236-240
Keyword(s):  
Curriculum Development ◽  
Mathematics Curriculum ◽  
Chicago School ◽  
School Mathematics ◽  
Evaluation Standards ◽  
Use Of Technology ◽  
Mathematics Program ◽  
Interactive Mathematics Program ◽  
The Impact ◽  
Mathematics And Science

By helping people visualize and experiment with mathematical phenomena, modem computing technologies have changed the way all people learn andwork. In schools, they can influence how mathematics is learned and taught not only by making calculations and graphing easier but by altering the very nature of what is important to learn. New problems, as well as new ways of investigating all problems, become accessible. Acknowledging the impact that technology has on mathematics and its uses, the NCTM’s Curriculum and Evaluation Standards for School Mathematics (1989) recommends that calculators and at least one computer for each classroom be available for students working individually or in groups. Representatives from all the National Science Foundation (NSF) secondary mathematics curriculum-development initiatives and from other significant reform projects were invited to comment on the role and use of technology in their curricula. This article presents the replies from three comprehensive secondary curriculum-development projects— Interactive Mathematics Program, Systemic Initiative for Montana Mathematics and Science, and University of Chicago School Mathematics Program—and from one smaller, more specialized project, Connected Geometry.

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