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Deep Sea Duel
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Okta challenges you to a duel! That crazy octopus wants to play you in a game where the first person to choose cards with a specified sum wins. You can choose how many cards, what types of numbers, and Okta's level of strategy.

Density Column Lab - Part 2
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Concluding a two-part lab activity, students use triple balance beams and graduated cylinders to take measurements and calculate densities of several household liquids and compare them to the densities of irregularly shaped objects (as determined in Part 1). Then they create density columns with the three liquids and four solid items to test their calculations and predictions of the different densities. Once their density columns are complete, students determine the effect of adding detergent to the columns. After this activity, present the associated Density & Miscibility lesson for a discussion about why the column layers do not mix.

Author:
TeachEngineering.org
GK-12 Program,
Jessica Ray, Phyllis Balcerzak, Barry Williams
Density Differences
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In this lab activity, students determine density differences of water samples with varying temperature and salinity levels. Students synthesize information to predict the effects of oil in given water samples.

Author:
Mary Holmberg
Density Of A Penny
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A lab where the students study the density of pennies. They will discover the limitations of measurements and the value of multiple trials.

Author:
Robert Ward
Density with Carbon Dioxide
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This activity is a demonstration proving that carbon dioxide is more dense than air which leads to a deeper understanding of the term density.

Author:
Hans Albrecht
Hans Albrecht
Diffraction
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In this optics activity, demonstrate diffraction using a candle or a small bright flashlight bulb and a slide made with two pencils. Learners will observe the diffraction pattern and learn that light has wavelike properties.

Author:
The Exploratorium
California Department of Education
NEC Foundation of America
National Science Foundation
Digital Lab Techniques Manual
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The "Digital Lab Techniques Manual" is a series of videos designed to help you prepare for your chemistry laboratory class. Each video provides a detailed demonstration of a common laboratory technique, as well as helpful tips and information. These videos are meant to supplement, and not replace, your lab manual and assigned reading. In fact, you will most benefit from watching the videos if you have already read the appropriate background information. To be a great experimentalist, you must understand both theory and technique! If you have questions about what you see, make sure to ask your TA or your instructor. The experiments described in these materials are potentially hazardous and require a high level of safety training, special facilities and equipment, and supervision by appropriate individuals. You bear the sole responsibility, liability, and risk for the implementation of such safety procedures and measures. MIT shall have no responsibility, liability, ...

Author:
Eileen Huang
Aayesha Siddiqui
Dr. Sarah Tabacco
Dr. Kimberly Berkowski
Digital Lab Techniques Manual, Spring 2007
Conditional Remix & Share Permitted
CC BY-NC-SA
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The "Digital Lab Techniques Manual" is a series of videos designed to help you prepare for your chemistry laboratory class. Each video provides a detailed demonstration of a common laboratory technique, as well as helpful tips and information. These videos are meant to supplement, and not replace, your lab manual and assigned reading. In fact, you will most benefit from watching the videos if you have already read the appropriate background information. To be a great experimentalist, you must understand both theory and technique! If you have questions about what you see, make sure to ask your TA or your instructor. WARNING NOTICE: The experiments described in these materials are potentially hazardous and require a high level of safety training, special facilities and equipment, and supervision by appropriate individuals. You bear the sole responsibility, liability, and risk for the implementation of such safety procedures and measures. MIT shall have no responsibility, liability, or risk for the content or implementation of any of the material presented.

Subject:
Chemistry
Physical Science
Material Type:
Full Course
Textbook
Author:
Berkowski, Kimberly
Huang, Eileen
Siddiqui, Aayesha
Tabacco, Sarah
Date Added:
01/01/2007
Discovering Density Through "Lava Lamps"
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This activity is a guided inquiry on the density of two liquids and salt. Students will then create their own experiment to back their findings.

Author:
Angela Lawrence
Do It with Dominoes
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In this 6-lesson unit, students use dominoes to explore four models of addition: counting, number line, sets, and balanced equations. They learn about the commutative property, the relation between addition and subtraction, the result of adding 0, and the concept of doubles. Students write story problems which involve the operation of addition and begin to memorize the addition facts. They represent addition in pictures. The various models of addition help students develop a rich conceptual schema for addition. Included are a Bibliography of Counting Books, student materials, questions for student and teacher reflection, assessment and extension ideas. [Suggestion: Use the alternate applet, Pan Balance - Numbers, listed as a Related Resource, rather than Pan Balance - Shapes, in Lesson 4.]

Author:
Grace M. Burton
Drawing Board
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The Drawing Board consists of a marking pen that remains stationary and a platform that swings beneath the pen, acting as a pendulum. As the platform swings, the pen marks a sheet of paper that is fastened to the platform, generating beautiful repetitive patterns. These colorful designs contain hidden lessons in physics. This resource includes instructions for making a large-scale Drawing Board as well.

Author:
The Exploratorium
California Department of Education
NEC Foundation of America
National Science Foundation
Drop Zone: Adding Fractions with Like and Unlike Denominators Utilizing Strategy
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In this lesson plan from NCTM Illuminations students learn to add fractions with like and unlike denominators to make a sum of one. The lesson plan includes two games utilizing fraction cards (PDF) and a fraction bar chart (PDF), and an online game through Calculation Nation which is cataloged separately.

Author:
Ann Bremner
Dust to Dust: The Carbon Cycle
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Tom and his grandfather, a retired high school chemistry teacher, are talking about a National Geographic television documentary titled "Waking the Baby Mammoth." As students read the dialogue that ensues, they learn how carbon, an essential element of life, is transformed from carbon dioxide to carbohydrate to animals, then back to carbon dioxide. The case emphasizes a number of chemistry concepts, including atomic structures, carbon isotopes, radiocarbon dating, beta decay, half-life, and photosynthesis. Developed as a supplement to the nuclear chemistry chapter in a non-majors general chemistry course, the case could also be used in an introductory botany, paleobiology, plant, or general ecology course after students have completed at least one semester of general chemistry.

Author:
Diane R. Wang
Jennifer Y. Anderson
Ling Chen
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
Eddy Currents
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In this activity related to magnetism and electricity, learners discover that a magnet falls more slowly through a metallic tube than it does through a nonmetallic tube. Use this activity to illustrate how eddy currents in an electrical conductor create a magnetic field that exerts an opposing force on the falling magnet, which makes it fall at a slower rate. This activity guide also includes demonstration instructions involving two thick, flat pieces of aluminum to illustrate the same principle.

Author:
National Science Foundation
NEC Foundation of America
California Department of Education
The Exploratorium
Don Rathjen