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Types of Motion
Students will distinguish between and/or interpret the types of motion.
Types of Science Investigations
Students will distinguish between descriptive, comparative, and experimental investigations.
Given investigation scenarios and lab procedures, students will identify independent variables, dependent variables, constants, and control groups.
Demonstration and Analysis of Dihybrid Crosses
The students will review related vocabulary, watch the teacher model a dihybrid cross, and then perform a dihybrid cross and answer questions about the outcomes with a partner.
Lesson 2.1: Inquiry-Based Learning
This resource introduced inquiry-based learning. It also discusses building the scientific literacy of CTE students.
Lesson 2.2: Incorporating the Scientific Practices
This resource discusses incorporating the five scientific practices outlined in the TEKS into a CTE lesson.
Lesson 2.3: Following the Six Essential Elements
This resource walks through the six essential elements of a science-enhanced CTE lesson.
Lesson 2.4: Collaborate with Others to Develop Multidisciplinary Curriculum
This resource discusses why collaboration is essential to integrating science into a CTE lesson and who to turn to for collaboration.
Lesson 1.1: Curriculum Integration
This resource explains what it means to integrate math into CTE curriculum. It alwo explains the goals and benefits of using an integrated approach to teaching math to CTE students.
Lesson 1.3: Elements of an Effective Math-Integrated Lesson
This resource explains the seven essential elements of an effective math-enhanced CTE lesson as identified by the National Research Center for Career and Technical Education (NRCCTE).
Lesson 1.2: Math in Real-World and Real-Work Situations
This resource explores the role of math in our everyday lives and looks at ways to enhance math within the context of a real-world situation, and then within the context of a CTE lesson for a real-work connection.
Lesson 1.1: Curriculum Integration
This resource explains what it means to integrate science into CTE curriculum. It also explains the goals and benefits of using a contextualized instruction approach to teaching science to CTE students.
Lesson 1.2: Scientific Practices
This lesson introduces the eight scientific practices and how they can be integrated into CTE curriculum.
Lesson 1.3: Core Principles
This lesson provides some core principles for integrating science into CTE curriculum.
Lesson 1.4: Elements of a Science-Enhanced CTE Lesson
This lesson discusses essential elements for developing CTE lessons that effectively integrate science.
17 OnTRACK Scientific Process Skills
This binder contains seventeen separate resources focused on the scientific processes for conducting laboratory and field investigations.
6 Section 2: Education Laws and Rules
This section provides an overview of general state and federal education laws and rules related to work-based learning (WBL).
5 Section 4: Local School Policies
This section discusses local school policies pertain to work-based learning (WBL), as well as how those policies are typically applied in Texas high schools.
5 Section 3: Texas Education Agency Rules Impacting Work-Based Learning
This section describes Texas Education Agency (TEA) rules related to work-based learning (WBL), with an emphasis on Section V of the Student Attendance Accounting Handbook (SAAH) and rules regarding career preparation and practicum courses. In addition, it provides a brief overview of career and technical education (CTE) funding and coding guidelines.
4 Section 7: Training Plans for Career Preparation and Practicum Courses
This section explains what a work-based learning (WBL) training plan is, how it is used, why it is important, and how to correctly complete it.