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Antimatter Matters
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Antimatter, the charge reversed equivalent of matter, has captured the imaginations of science fiction fans for years as a perfectly efficient form of energy. While normal matter consists of atoms with negatively charged electrons orbiting positively charged nuclei, antimatter consists of positively charged positrons orbiting negatively charged anti-nuclei. When antimatter and matter meet, both substances are annihilated, creating massive amounts of energy. Instances in which antimatter is portrayed in science fiction stories (such as Star Trek) are examined, including their purposes (fuel source, weapons, alternate universes) and properties. Students compare and contrast matter and antimatter, learn how antimatter can be used as a form of energy, and consider potential engineering applications for antimatter.

Author:
TeachEngineering.org
Rachel Howser
Christine Hawthorne
National Science Foundation GK-12 and Research Experience for Teachers (RET) Programs,
Basically Acidic Ink
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Students hypothesize whether vinegar and ammonia-based glass cleaner are acids or bases. They create designs on index cards using these substances as invisible inks. After the index cards have dried, they apply red cabbage juice as an indicator to reveal the designs.

Author:
Nicole Stewart
National Science Foundation GK-12 and Research Experience for Teachers (RET) Programs,
Corey Burton
Christine Hawthorne
TeachEngineering.org
Rachel Howser
Basically Acids
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Students learn the basics of acid/base chemistry in a fun, interactive way by studying instances of acid/base chemistry found in popular films such as Harry Potter and the Prisoner of Azkaban and National Treasure. Students learn what acids, bases and indicators are and how they can be used, including invisible ink. They also learn how engineers use acids and bases every day to better our quality of life. Students' interest is piqued by the use of popular culture in the classroom.

Author:
TeachEngineering.org
Rachel Howser
Christine Hawthorne
University of Houston,
Don't Be a Square
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After watching video clips from the Harry Potter and the Goblet of Fire movie, students explore the use of Punnett squares to predict genetic trait inheritance. The objective of this lesson is to articulate concepts related to genetics through direct immersive interaction based on the theme, The Science Behind Harry Potter. Students' interest is piqued by the use of popular culture in the classroom.

Author:
Rachel Howser
Christine Hawthorne
National Science Foundation GK-12 and Research Experience for Teachers (RET) Programs,
Engineering Out of Harry Situations: The Science Behind Harry Potter
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Under the "The Science Behind Harry Potter" theme, a succession of diverse complex scientific topics are presented to students through direct immersive interaction. Student interest is piqued by the incorporation of popular culture into the classroom via a series of interactive, hands-on Harry Potter/movie-themed lessons and activities. They learn about the basics of acid/base chemistry (invisible ink), genetics and trait prediction (parseltongue trait in families), and force and projectile motion (motion of the thrown remembrall). In each lesson and activity, students are also made aware of the engineering connections to these fields of scientific study.

Author:
TeachEngineering.org
Rachel Howser
Christine Hawthorne
National Science Foundation GK-12 and Research Experience for Teachers (RET) Programs,
Magical Motion
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Students watch video clips from the October Sky and Harry Potter and the Sorcerer's Stone movies to see examples of projectile motion. Then they explore the relationships between displacement, velocity and acceleration, and calculate simple projectile motion. The objective of this activity is to articulate concepts related to force and motion through direct immersive interaction based on "The Science Behind Harry Potter" theme. Students' interest is piqued by the use of popular culture in the classroom.

Author:
Rachel Howser
Christine Hawthorne
National Science Foundation GK-12 and Research Experience for Teachers (RET) Programs,
Projectile Magic
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Students watch video clips from October Sky and Harry Potter and the Sorcerer's Stone to learn about projectile motion. They explore the relationships between displacement, velocity and acceleration and calculate simple projectile motion. The objective of this activity is to articulate concepts related to force and motion through direct immersive interaction based on the theme, The Science Behind Harry Potter. Students' interest is piqued by the use of popular culture in the classroom.

Author:
Rachel Howser
Christine Hawthorne
National Science Foundation GK-12 and Research Experience for Teachers (RET) Programs,