Students describe human arm motion, design/construct mechanical arm model that biomimics human arms. Students describe simple machine aspects of their mechanical arm models. Students define mechanical advantage and discuss the importance of its use in robotic arm design. Students will describe four common robotic arm designs that biomimic human arm motion.

For more information:
http://oceanexplorer.noaa.gov.

Students identify key functions that are present in healthy ocean ecosystems. Students will discuss how these functions are met by biotic and abiotic components in a model aquatic ecosystem.

For more information:
http://oceanexplorer.noaa.gov

Students will be able to list the various adaptations that enable deep-sea fishes to survive; explain how biolouminescence helps deep-sea fish respond to food predator and reproductive pressures in their environments; explore how the structure of an appendage helps determine and utilize its function; describe how deepwater organisms respond to their dark environment.

For more information: http://oceanexplorer.noaa.gov.

Students will be able to compare and contrast photosynthesis and chemosynthesis as sources of primary production for biological communities; give at least three examples of organisms that live near hydrothermal vent systems; and describe two sources of primary production observed in biological communities associated with volcanoes of the Marianas Arc.

For more information: http://oceanexplorer.noaa.gov.

Students will be able to describe galvanic exchange and explain how this process produces electric currents. Given two dissimilar metals and information on their position in an Electromotive Series, students will be able to predict which of the metals will deteriorate if they are placed in a salt solution. Students will also be able to describe the effect of electric currents on the availability of metal ions, and how this might contribute to the growth of corals on shipwrecks.

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Students will be able to explain light in terms of electromagnetic waves and explain the relationship between color and wavelength; compare and contrast color related to wavelength with color perceived by biological vision systems; explain how color and light may be important to deep-sea organisms, even under conditions of near-total darkness; and predict the perceived color of objects when illuminated by light of certain wavelengths.

For more information:
http://oceanexplorer.noaa.gov.

Students will describe the overall events that occurred during the Cambrian Explosion; explain how methane hydrates may contribute to global warming; and describe the reasoning behind hypotheses that link methane hydrates with the Cambrian explosion.

For more information:
http://oceanexplorer.noaa.gov.