An important scientific practice is the asking and refining of questions that lead to rich descriptions, explanations, and reasoning of how the natural and designed world works, as well as those investigations of variables that can be empirically tested.
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Scientists and engineers use and develop models for representing ideas and explanations.
Scientists and engineers develop the procedures for their research and then carry out their investigations in a variety of environments (i.e., in the lab, outdoors, with others, as well as independently). They must plan in advance their criteria for the data they wish to collect, the conditions
Scientists and engineers use mathematics and quantitative thinking to representing variables, behaviors, and their relationships. Mathematics is used to create models and simulations; statistically analyze data; and recognize, communicate, and look for relationships with other variables.
The products of science are explanations and the products of engineering are solutions.
Argumentation is an important practice whereas the scientist develops explanations using evidence and reasoning to explain observed phenomena.
Science educators strive to engage students in authentic investigations that have students analyze data in order to derive meaning. MND provides unlimited opportunities to engage students in data analysis using Earth System data.
A key practice of successful scientists and engineers is the ability to clearly communicate the ideas and methods they develop. Being able to review and critique the ideas of others are fundamental activities of professional STEM professionals.