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Materials Similar to Computation across the curriculum: What skills are needed?

• 48%: The difficulties associated with integrating computation into undergraduate physics.
• 46%: Cognitive Consequences of Microcomputer-Based Laboratories: Graphing Skills Development
• 44%: Teaching scientific thinking skills: Students and computers coaching each other
• 44%: Student-identified themes around computation in high school physics
• 42%: Skills needed for reading comprehension of physics texts and their relation to problem-solving ability
• 41%: Leveraging on Easy Java Simulation tool and open source computer simulation library to create interactive digital media for mass customization of high school physics curriculum
• 39%: Curriculum Reform in Physics: The Computer as a Vehicle
• 39%: Teachers' intended learning outcomes around computation in high school physics
• 38%: Implementing Reform: Teachers’ Beliefs about Students and the Curriculum
• 38%: Research Projects in Science Education for Preschool, Evolution, and Results in Curriculum Development, Evaluation Tools, and Teacher Workshops.
• 37%: Examining the development of knowledge for teaching a novel introductory physics curriculum
• 35%: Numerical Computations in US Undergraduate Physics Courses
• 35%: Pedagogy and/or technology: Making difference in improving students’ problem solving skills
• 35%: Optimization of Simulations and Activities for a New Introductory Quantum Mechanics Curriculum
• 34%: Interactive video tutorials for enhancing problem-solving, reasoning, and meta-cognitive skills of introductory physics students
• 34%: Designing and Investigating New Ways of Interactive Whiteboard Use in Physics Instruction
• 34%: “Curriculum swaps” as a pathway into a geographically-distributed instructional community
• 34%: Scientific Practices in Minimally Working Programs
• 32%: Student Understanding of Differentials in Introductory Physics