Volume 7, Number 1

In this issue:

From the Director:
Standards-Based Education in Minnesota

Local Systemic Change Initiatives in Science and Mathematics

Educational Technology: A Valuable Support for Standards-based Science and Math Education Reform

Technology in the Mathematics Classroom: Helping Students Make Connections

Museums: They're Not Just for Field Trips Anymore

CAREI > Research/Practice Newsletter

Standards-based Education in Minnesota

Karen Seashore Louis, Director, CAREI

Standards. The word evokes many different responses among educational professionals in the United States and other countries.¹ For some, the first reaction is to look at the increasing influence of state government and national organizations on the content introduced into our classrooms. For most of this century, schooling was fiscally and politically a local issue, and educational reform was emphasized in neither national nor state policy. Thus, the "standards movement" represents a major shift. Many argue that we need state and national standards in order to ensure that all children have the opportunity to be exposed to the knowledge that they will need to prosper in the next century.

For other educators, the term standards is associated with "teacher bashing" or other critiques of local schools. We need standards because we don't have them, the reasoning goes. Not surprisingly, in Minnesota, which prides itself on the quality of its educational performance compared with other states and countries, the use of standards is often viewed as a code word for efforts to micro-manage schools and to privatize education.

Finally, standards are part of the taken-for-granted work of teachers and administrators. Even in the absence of defined state standards, each teacher and school develops an idea about what students should know and be able to do at a given point in their "school career." Standards are applied when teachers make assignments and assess students' work. Standards may not be absolute, but they are an inherent part of the day-to-day life of schools.

This volume of Research / Practice is one of two volumes that highlight issues related to emerging national standards in the sciences and mathematics. This is an area where the University of Minnesota has developed a significant leadership role, ranging from the well-established program in the Mathematics department for talented high school students (known by its euphonious acronym, UMTYUMP-the University of Minnesota Talented Youth Mathematics Project) and long standing efforts in the College of Biological Sciences and the Bell Museum to increase support for students' understanding of the life sciences, to more recent endeavors, such as the "Brain Train," a traveling exhibit on human neurological development funded through the medical school. Here we focus less on what the science and math departments have done for the K-12 educational system, and more on what we are beginning to know about changes in science and mathematics education. The assessments of the effects of standards-based reform on teachers and students are led by faculty and staff in the College of Education and Human Development-in CAREI and in the Departments of Educational Psychology and Curriculum and Instruction.

The articles in these two issues are designed to whet your appetite for more, but not to lead you to believe that all the answers are in with regard to the new standards.² We begin with an overview of the way in which the National Science Foundation's Local Systemic Initiatives Program to reform math and science education have been implemented in Minnesota schools (Lawrenz and Post). This article highlights the collaboration that has developed between national curriculum groups, local educators, and community leaders is less advantaged communities, both rural and urban. We then move on to a discussion about how technology, and especially the World Wide Web, can be used to increase the level of student inquiry in a standards-based curriculum (Dexter). Included is an example of how to use technology in a mathematics classroom (Wyberg). We finish with an article about how schools and science museums can work in partnership to help each other achieve their goals (Ingram).

Future issues of Research / Practice will focus on other applied research on standards-based curriculum. The College of Education and Human Development houses the state's Office of Educational Accountability, which provides analytic support related to the effects of the new state tests. In addition, we have many faculty, graduate students and staff who are engaged in research on literacy, writing and social studies-areas where consensus around national standards have been slower to emerge, but which are deeply important to the educational of our students. We hope that you will enjoy this issue, and look forward to future discussions of standards and education in Minnesota.

¹ A fuller discussion of standards-based reform policies is presented in my 1998 article, "A lighter feeling of chaos" Daedalus.

² For more information about the University's efforts to work with K-12 schools on science and math education, log on to the easily searchable "Youth and U" inventory on  the CAREI website