The Next Generation Science Standards is a multi-state effort to create new education standards that are "rich in content and practice, arranged in a coherent manner across disciplines and grades to provide all students an internationally benchmarked science education." The standards were developed by a consortium of 26 states and by the National Science Teachers Association, the American Association for the Advancement of Science, the National Research Council, and Achieve, a nonprofit organization that was also involved in developing math and English standards. The public was also invited to review the standards, and organizations such as the California Science Teachers Association encouraged this feedback. The final draft of the standards was released in April 2013.
Video Next Generation Science Standards
Goal
The purposes of the standards include combatting ignorance of science, creating common standards for teaching in the U.S., and developing greater interest in science among students so that more of them choose to major in science and technology in college. Overall, the guidelines are intended to help students deeply understand core scientific concepts, to understand the scientific process of developing and testing ideas, and to have a greater ability to evaluate scientific evidence. Curricula based on the standards may cover fewer topics, but will go more deeply into specific topics, possibly using a case-study method and emphasizing critical thinking and primary investigation. Possible approaches to implementing the standards may even include replacing traditional siloed high school courses such as biology and chemistry with a case-study approach that uses a more holistic method of teaching science. Many education supply companies have already started offering NGSS-aligned products and resources to help teachers implement these new principles.
Maps Next Generation Science Standards
The Standards
The Next Generation Science Standards (NGSS) are based on the "Framework K-12 Science Education" that was created by the National Research Council. They have three dimensions that are integrated in instruction at all levels. The first is core ideas, which consists of specific content and subject areas. The second is science and engineering practices. Students are expected not just to learn content but to understand the methods of scientists and engineers. The third is cross-cutting concepts: key underlying ideas that are common to a number of topics. The NGSS give equal emphasis to engineering design and to scientific inquiry. In addition, they are aligned with the Common Core State Standards by grade and level of difficulty. The standards describe "performance expectations" for students in the area of science and engineering. They define what students must be able to do in order to show competency.
An important facet of the standards is that teaching of content is integrated with teaching the practices of scientists and engineers. This is a change from traditional teaching, which typically either dealt with these topics separately or didn't attempt to teach practices. According to NGSS, it is through the integration of content and practice "that science begins to make sense and allows students to apply the material."
Adoption
Over 40 states have shown interest in the standards, and as of November 2017, 19 states, along with the District of Columbia (D.C.), have adopted the standards: Arkansas, California, Connecticut, Delaware, Hawaii, Illinois, Iowa, Kansas, Kentucky, Maryland, Michigan, Nevada, New Hampshire, New Mexico, New Jersey, Oregon, Rhode Island, Vermont, and Washington. These represent over 35% of the students in U.S.
Unlike the earlier roll-out of the Common Core (CC) math and English standards, states have no financial incentives from federal grants to adopt the Next Generation Science Standards. Previously, adoption of the CC standards was incentivized through states accepting federal grants during the 2009 TARP bailouts. Once states accepted the grant, they accepted the responsibility to adopt "college and career readiness" standards, which didn't have to be CC, but most states chose CC anyway.
The 26 states involved in developing the NGSS, called Lead State Partners, were Arizona, Arkansas, California, Delaware, Georgia, Illinois, Iowa, Kansas, Kentucky, Maine, Maryland, Massachusetts, Michigan, Minnesota, Montana, New Jersey, New York, North Carolina, Ohio, Oregon, Rhode Island, South Dakota, Tennessee, Vermont, Washington, and West Virginia.
When the standards were released in April 2013, many states were expected to adopt them within one-to-two years. However, according to the New York Times, it would take several more years to actually develop curricula based on the new guidelines, to train teachers in implementing them, and to revise standardized tests. In addition, the pace of adoption is expected to be slower than was seen with the Common Core State Standards because, unlike Common Core, in which the states had financial incentives to adopt, there are no similar incentives for the NGSS. Many education supply companies have started offering NGSS-aligned products and resources to help teachers adopt NGSS.
Reception
News reports have suggested there will likely be resistance towards the Next Generations Science Standards from conservatives due to the inclusion of anthropogenic climate change and evolution.
See also
- Common Core State Standards Initiative
References
External links
- Next Generation Science Standards website
Source of article : Wikipedia