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Does It Work? Test and Test Again
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Testing is critical to any design, whether the creation of new software or a bridge across a wide river. Despite risking the quality of the design, the testing stage is often hurried in order to get products to market. In this lesson, students focus on the testing phase of the software/systems design process. They start by exploring existing examples of program testing using the CodingBat website, which contains a series of problems and challenges that students solve using the Java programming language. Working in teams, students practice writing test cases for other groups' code, and then write test cases for a program before writing the program itself.

Author:
TeachEngineering.org
Ryan Stejskal, Brian Sandall, Janet Yowell
IMPART RET Program, College of Information Science & Technology,
Drawing Designs in Detail
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Students practice creating rudimentary detail drawings. They learn how engineers communicate the technical information about their designs using the basic components of detail drawings. They practice creating their own drawings of a three-dimensional block and a special LEGO piece, and then make 3D sketches of an unknown object using only the information provided in its detail drawing.

Author:
TeachEngineering.org
Integrated Teaching and Learning Program,
Benjamin S. Terry, Brandi Briggs, Stephanie Rivale, Denise W. Carlson
Drawing Magnetic Fields
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Students use a compass and a permanent magnet to trace the magnetic field lines produced by the magnet. By positioning the compass in enough spots around the magnet, the overall magnet field will be evident from the collection of arrows representing the direction of the compass needle. In activities 3 and 4 of this unit, students will use this information to design a way to solve the grand challenge of separating metal for a recycling company.

Author:
TeachEngineering.org
Justin Montenegro (Author), Glencliff High School, Nashville
VU Bioengineering RET Program,
Earth and Space
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In earth and space science, students study the origin, structure, and physical phenomena of the earth and the universe. Earth and space science studies include concepts in geology, meteorology, oceanography, and astronomy.

Author:
TeachEngineering.org
K-12 Outreach,
Eat Iron?!!
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To gain an understanding of mixtures and the concept of separation of mixtures, students use strong magnets to find the element of iron in iron-fortified breakfast cereal flakes. Through this activity, they see how the iron component of this heterogeneous mixture (cereal) retains its properties and can thus be separated by physical means.

Author:
TeachEngineering.org
NSF GK-12 and Research Experience for Teachers (RET) Programs,
Roberto Dimaliwat
Parnia Mohammadi
Element, Mixture, Compound
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Students gain a better understanding of the different types of materials as pure substances and mixtures and learn to distinguish between homogeneous and heterogeneous mixtures by discussing an assortment of example materials they use and encounter in their daily lives.

Author:
TeachEngineering.org
Parnia Mohammadi
Roberto Dimaliwat
National Science Foundation GK-12 and Research Experience for Teachers (RET) Programs,
Energy Forms, States and Conversions
Read the Fine Print
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The students participate in many demonstrations during the first day of this lesson to learn basic concepts related to the forms and states of energy. This knowledge is then applied the second day as they assess various everyday objects to determine what forms of energy are transformed to accomplish the object's intended task. The students use block diagrams to illustrate the form and state of energy flowing into and out of the process.

Subject:
Applied Science
Chemistry
Engineering
Physical Science
Physics
Technology
Material Type:
Activity/Lab
Lesson Plan
Author:
Jan DeWaters
Office of Educational Partnerships,
Susan Powers
Susan Powers, Jan DeWaters, and a number of Clarkson and St. Lawrence University students in the K-12 Project Based Learning Partnership Program
TeachEngineering.org
Date Added:
09/18/2014
Engineering Nature: DNA Visualization and Manipulation
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Students are introduced to genetic techniques such as DNA electrophoresis and imaging technologies used for molecular and DNA structure visualization. In the field of molecular biology and genetics, biomedical engineering plays an increasing role in the development of new medical treatments and discoveries. Engineering applications of nanotechnology such as lab-on-a-chip and deoxyribonucleic acid (DNA) microarrays are used to study the human genome and decode the complex interactions involved in genetic processes.

Author:
TeachEngineering.org
Mircea Ionescu
Myla Van Duyn
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,
Estimating Buoyancy
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Students learn that buoyancy is responsible for making boats, hot air balloons and weather balloons float. They calculate whether or not a boat or balloon will float, and calculate the volume needed to make a balloon or boat of a certain mass float. Conduct the first day of the associated activity before conducting this lesson.

Author:
Mike Soltys
TeachEngineering.org
Integrated Teaching and Learning Program,
Marissa H. Forbes
Eureka! Or Buoyancy and Archimedes' Principle
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Students explore material properties in hands-on and visually evident ways via the Archimedes' principle. First, they design and conduct an experiment to calculate densities of various materials and present their findings to the class. Using this information, they identify an unknown material based on its density. Then, groups explore buoyant forces. They measure displacement needed for various materials to float on water and construct the equation for buoyancy. Using this equation, they calculate the numerical solution for a boat hull using given design parameters.

Author:
TeachEngineering.org
CREAM GK-12 Program, Engineering Education Research Center, College of Engineering and Architecture,
Andy Wekin
The Evening News
Read the Fine Print
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In this lesson, the students will summarize their experiences in the Amazon rainforest by developing and presenting a briefing for a T.V. evening news program.

Subject:
Applied Science
Engineering
Technology
Material Type:
Activity/Lab
Lesson Plan
Author:
Adventure Engineering,
TeachEngineering.org
Date Added:
09/18/2014
Evolution of Digital Organisms
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Students are introduced to the concepts of digital organisms and digital evolution. They learn about the research that digital evolution software makes possible, and compare and contrast it with biological evolution.

Author:
Robert Pennock
Wendy Johnson
Bio-Inspired Technology and Systems (BITS) RET,
Louise Mead
TeachEngineering.org
Exploring Bone Mineral Density
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In this activity, students will explore two given websites to gather information on Bone Mineral Density and how it is measured. They will also learn about X-rays in general, how they work and their different uses, along with other imaging modalities. They will answer guiding questions as they explore the websites and take a short quiz after to test the knowledge they gained while reading the articles.

Author:
TeachEngineering.org
VU Bioengineering RET Program,
Megan Johnston
Kristyn Shaffer (Primary Author)
Exploring The Forces of Tension
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Students will review their knowledge of tension and focus on tensile loads and failure caused by them.

Author:
TeachEngineering.org
Center for Engineering Educational Outreach,
Douglas Prime
Douglas Prime, Tufts University, Center for Engineering Educational Outreach
Eye Witness Reporting
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In this activity, the students will develop a briefing for a T.V. evening news program that summarizes their experiences surviving in the Amazon rainforest. The students will have the opportunity to role play as interviewer and interviewee in presentations to the class.

Author:
TeachEngineering.org
Adventure Engineering,
Faucet Flow Rate
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Students conduct experiments to determine the flow rate of faucets by timing how long it takes to fill gallon jugs. They do this for three different faucet flow levels (quarter blast, half blast, full blast), averaging three trials for each level. They convert their results from gallons per second (gps) to cubic feet per second (cfs).

Author:
Civil and Environmental Engineering Department,
Karen Johnson
Bobby Rinehart
TeachEngineering.org
Mike Mooney
Feel Better Faster: All about Flow Rate
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All of us have felt sick at some point in our lives. Many times, we find ourselves asking, "What is the quickest way that I can start to feel better?" During this two-lesson unit, students study that question and determine which form of medicine delivery (pill, liquid, injection/shot) offers the fastest relief. This challenge question serves as a real-world context for learning all about flow rates. Students study how long various prescription methods take to introduce chemicals into our blood streams, as well as use flow rate to determine how increasing a person's heart rate can theoretically make medicines work more quickly. Students are introduced to engineering devices that simulate what occurs during the distribution of antibiotic cells in the body.

Author:
TeachEngineering.org
VU Bioengineering RET Program,
Michelle Woods
Feel the Stress
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Working individually or in groups, students explore the concept of stress (compression) through physical experience and math. They discover why it hurts more to poke themselves with mechanical pencil lead than with an eraser. Then they prove why this is so by using the basic equation for stress and applying the concepts to real engineering problems.

Author:
Jeffrey Mitchell
TeachEngineering.org
GK-12 Program, School of Engineering and Applied Science,
The Fibonacci Sequence & Robots
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Using the LEGO® NXT robotics kit, students construct and program robots to illustrate and explore the Fibonacci sequence. Within teams, students are assigned roles: group leader, chassis builder, arm builder, chief programmer, and Fibonacci verifier. By designing a robot that moves based on the Fibonacci sequence of numbers, they can better visualize how quickly the numbers in the sequence grow. To program the robot to move according to these numbers, students break down the sequence into simple algebraic equations so that the computer can understand the Fibonacci sequence.

Author:
Alexander Kozak
AMPS GK-12 Program,
TeachEngineering.org
Russell Holstein
Nicole Abaid
Vikram Kapila