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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 areas of science and engineering.
The No Child Left Behind Act of 2001, Sec. 1111 (b)(F), required that "each state shall establish a timeline for adequate yearly progress.The timeline shall ensure that not later than 12 years after the 2001-2002 school year, all students in each group described in subparagraph (C)(v) will meet or exceed the State's standards."
The content of these standards is based heavily on a specific model of learning, constructivism (learning theory). [4] Like reform mathematics, [5] which is distinguished by an emphasis on building on what a child already knows and understands, the standards intend to update the methods of science education to achieve greater effectiveness with children.
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The Common Core State Standards Initiative, also known as simply Common Core, was an American, multi-state educational initiative begun in 2010 with the goal of increasing consistency across state standards, or what K–12 students throughout the United States should know in English language arts and mathematics at the conclusion of each school grade.
The official logo of the TAKS test. Mainly based on the TAAS test's logo. The Texas Assessment of Knowledge and Skills (TAKS) was the fourth Texas state standardized test previously used in grade 3-8 and grade 9-11 to assess students' attainment of reading, writing, math, science, and social studies skills required under Texas education standards. [1]
Content and performance expectations are based primarily on what was taught in the past to students of a given age of 12-18. The goal of this education was to present the knowledge and skills of an older generation to the new generation of students, and to provide students with an environment in which to learn.
The laboratory is a foundational example of hands-on, activity-based learning. In the laboratory, students use materials to observe scientific concepts and phenomena. The laboratory in science education can include multiple different phases. These phases include planning and design, performance, and analysis and interpretation.