Koda Gr. 8 students in Daniel Eckard’s science class rotate through six stations to tackle the Next-Generation Science Standard “PS1 – Matter and its Interactions.” More info and photos…

Written by on November 1, 2019

Koda Gr. 8 students in Daniel Eckard’s science class rotate through six stations to tackle the Next-Generation Science Standard “PS1 – Matter and its Interactions.” Students view and manipulate the processes of conduction, convection, and radiation to predict and analyze how particle motion changes when thermal energy is added or removed.

Koda Gr. 8 students in Daniel Eckard's science class rotate through six stations to tackle the Next-Generation Science Standard "PS1 - Matter and its Interactions." Students view and manipulate the processes of conduction, convection, and radiation to predict and analyze how particle motion changes when thermal energy is added or removed. Koda Gr. 8 students in Daniel Eckard's science class rotate through six stations to tackle the Next-Generation Science Standard "PS1 - Matter and its Interactions." Students view and manipulate the processes of conduction, convection, and radiation to predict and analyze how particle motion changes when thermal energy is added or removed. Koda Gr. 8 students in Daniel Eckard's science class rotate through six stations to tackle the Next-Generation Science Standard "PS1 - Matter and its Interactions." Students view and manipulate the processes of conduction, convection, and radiation to predict and analyze how particle motion changes when thermal energy is added or removed. Koda Gr. 8 students in Daniel Eckard's science class rotate through six stations to tackle the Next-Generation Science Standard "PS1 - Matter and its Interactions." Students view and manipulate the processes of conduction, convection, and radiation to predict and analyze how particle motion changes when thermal energy is added or removed. Koda Gr. 8 students in Daniel Eckard's science class rotate through six stations to tackle the Next-Generation Science Standard "PS1 - Matter and its Interactions." Students view and manipulate the processes of conduction, convection, and radiation to predict and analyze how particle motion changes when thermal energy is added or removed. Koda Gr. 8 students in Daniel Eckard's science class rotate through six stations to tackle the Next-Generation Science Standard "PS1 - Matter and its Interactions." Students view and manipulate the processes of conduction, convection, and radiation to predict and analyze how particle motion changes when thermal energy is added or removed. Koda Gr. 8 students in Daniel Eckard's science class rotate through six stations to tackle the Next-Generation Science Standard "PS1 - Matter and its Interactions." Students view and manipulate the processes of conduction, convection, and radiation to predict and analyze how particle motion changes when thermal energy is added or removed. Koda Gr. 8 students in Daniel Eckard's science class rotate through six stations to tackle the Next-Generation Science Standard "PS1 - Matter and its Interactions." Students view and manipulate the processes of conduction, convection, and radiation to predict and analyze how particle motion changes when thermal energy is added or removed. Koda Gr. 8 students in Daniel Eckard's science class rotate through six stations to tackle the Next-Generation Science Standard "PS1 - Matter and its Interactions." Students view and manipulate the processes of conduction, convection, and radiation to predict and analyze how particle motion changes when thermal energy is added or removed. Koda Gr. 8 students in Daniel Eckard's science class rotate through six stations to tackle the Next-Generation Science Standard "PS1 - Matter and its Interactions." Students view and manipulate the processes of conduction, convection, and radiation to predict and analyze how particle motion changes when thermal energy is added or removed. Koda Gr. 8 students in Daniel Eckard's science class rotate through six stations to tackle the Next-Generation Science Standard "PS1 - Matter and its Interactions." Students view and manipulate the processes of conduction, convection, and radiation to predict and analyze how particle motion changes when thermal energy is added or removed. Koda Gr. 8 students in Daniel Eckard's science class rotate through six stations to tackle the Next-Generation Science Standard "PS1 - Matter and its Interactions." Students view and manipulate the processes of conduction, convection, and radiation to predict and analyze how particle motion changes when thermal energy is added or removed. Koda Gr. 8 students in Daniel Eckard's science class rotate through six stations to tackle the Next-Generation Science Standard "PS1 - Matter and its Interactions." Students view and manipulate the processes of conduction, convection, and radiation to predict and analyze how particle motion changes when thermal energy is added or removed. Koda Gr. 8 students in Daniel Eckard's science class rotate through six stations to tackle the Next-Generation Science Standard "PS1 - Matter and its Interactions." Students view and manipulate the processes of conduction, convection, and radiation to predict and analyze how particle motion changes when thermal energy is added or removed. Koda Gr. 8 students in Daniel Eckard's science class rotate through six stations to tackle the Next-Generation Science Standard "PS1 - Matter and its Interactions." Students view and manipulate the processes of conduction, convection, and radiation to predict and analyze how particle motion changes when thermal energy is added or removed. Koda Gr. 8 students in Daniel Eckard's science class rotate through six stations to tackle the Next-Generation Science Standard "PS1 - Matter and its Interactions." Students view and manipulate the processes of conduction, convection, and radiation to predict and analyze how particle motion changes when thermal energy is added or removed. Koda Gr. 8 students in Daniel Eckard's science class rotate through six stations to tackle the Next-Generation Science Standard "PS1 - Matter and its Interactions." Students view and manipulate the processes of conduction, convection, and radiation to predict and analyze how particle motion changes when thermal energy is added or removed. Koda Gr. 8 students in Daniel Eckard's science class rotate through six stations to tackle the Next-Generation Science Standard "PS1 - Matter and its Interactions." Students view and manipulate the processes of conduction, convection, and radiation to predict and analyze how particle motion changes when thermal energy is added or removed. Koda Gr. 8 students in Daniel Eckard's science class rotate through six stations to tackle the Next-Generation Science Standard "PS1 - Matter and its Interactions." Students view and manipulate the processes of conduction, convection, and radiation to predict and analyze how particle motion changes when thermal energy is added or removed. Koda Gr. 8 students in Daniel Eckard's science class rotate through six stations to tackle the Next-Generation Science Standard "PS1 - Matter and its Interactions." Students view and manipulate the processes of conduction, convection, and radiation to predict and analyze how particle motion changes when thermal energy is added or removed. Koda Gr. 8 students in Daniel Eckard's science class rotate through six stations to tackle the Next-Generation Science Standard "PS1 - Matter and its Interactions." Students view and manipulate the processes of conduction, convection, and radiation to predict and analyze how particle motion changes when thermal energy is added or removed. Koda Gr. 8 students in Daniel Eckard's science class rotate through six stations to tackle the Next-Generation Science Standard "PS1 - Matter and its Interactions." Students view and manipulate the processes of conduction, convection, and radiation to predict and analyze how particle motion changes when thermal energy is added or removed. Koda Gr. 8 students in Daniel Eckard's science class rotate through six stations to tackle the Next-Generation Science Standard "PS1 - Matter and its Interactions." Students view and manipulate the processes of conduction, convection, and radiation to predict and analyze how particle motion changes when thermal energy is added or removed. Koda Gr. 8 students in Daniel Eckard's science class rotate through six stations to tackle the Next-Generation Science Standard "PS1 - Matter and its Interactions." Students view and manipulate the processes of conduction, convection, and radiation to predict and analyze how particle motion changes when thermal energy is added or removed. Koda Gr. 8 students in Daniel Eckard's science class rotate through six stations to tackle the Next-Generation Science Standard "PS1 - Matter and its Interactions." Students view and manipulate the processes of conduction, convection, and radiation to predict and analyze how particle motion changes when thermal energy is added or removed. Koda Gr. 8 students in Daniel Eckard's science class rotate through six stations to tackle the Next-Generation Science Standard "PS1 - Matter and its Interactions." Students view and manipulate the processes of conduction, convection, and radiation to predict and analyze how particle motion changes when thermal energy is added or removed. Koda Gr. 8 students in Daniel Eckard's science class rotate through six stations to tackle the Next-Generation Science Standard "PS1 - Matter and its Interactions." Students view and manipulate the processes of conduction, convection, and radiation to predict and analyze how particle motion changes when thermal energy is added or removed.

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