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Dimension 1: Practices

Using mathematics and computational thinking

In both science and engineering, mathematics and computation are fundamental tools for representing physical variables and their relationships. They are used for a range of tasks such as constructing simulations; statistically analyzing data; and recognizing, expressing, and applying quantitative relationships.

Science
In the field of science, mathematics and computation play a pivotal role in representing physical variables and their interconnections. These tools are essential for numerous tasks, including the creation of simulations, statistical analysis of data, and the identification, expression, and application of quantitative relationships. By utilizing mathematical and computational methodologies, scientists can make predictions about the behavior of physical systems and test these predictions to validate their findings. Additionally, statistical techniques provide invaluable insights into assessing the significance of patterns or correlations observed within scientific research.
Engineering
In the field of engineering, mathematical and computational models are essential for design purposes. Structural engineers, for instance, rely on mathematically derived analyses to determine whether designs can withstand anticipated stresses and fit within budget constraints. Moreover, simulations serve as valuable tools for testing and refining designs throughout the development process.In the field of engineering, mathematical and computational models are essential for design purposes. Structural engineers, for instance, rely on mathematically derived analyses to determine whether designs can withstand anticipated stresses and fit within budget constraints. Moreover, simulations serve as valuable tools for testing and refining designs throughout the development process.

The Next Generation Science Standards (NGSS) recognize and emphasize the importance of three main dimensions for learning science. These dimensions are essential components in forming each standard—or performance expectation. When taken together, they allow students a chance to gain a more cohesive understanding of science concepts as they progress through their courses.

Science Education

Three Dimensional Learning

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Kids Corner

Discover engaging NGSS-aligned lessons, activities, and resources designed to ignite curiosity and foster critical thinking in young minds. Explore hands-on experiments, interactive projects, and real-world applications that bring science and engineering practices to life for kids. Start inspiring the next generation of scientists and engineers today!

Parents Corner

Teachers Corner

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