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The Explore Science: Let's Do Chemistry kit is designed to stimulate interest, sense of relevance, and feelings of self-efficacy about chemistry among public audiences.

The Nanoscale Informal Science Education Network's full collection of do-it-yourself science activities that investigate the nanoscale - the scale of atoms and molecules! These 'Do It Yourself' Nano activities and experiments allow families to experience and learn about nanoscale science,...

The DIY Nano app (for iPhones) and DIY Nano HD (for iPads) allows families to experience and learn about nanoscale science, engineering, and technology at home or on the go! The apps provide free, easy to use, hands-on activities at...

These files contain the complete Frankenstein200 digital kit. This includes all planning and promotional materials; the hands-on activity guides, facilitator guides, and associated graphics and information sheets; facilitator orientation materials and training videos; and pre-made marketing materials, as well as...

These videos cover each of the Frankenstein200 hands-on activities. They will walk facilitators through the steps for setting up and running each activity, as well as the activities' backgrounds and learning objectives. Activity booklets and facilitator guides can be found...

In this episode of O Wow Moments with Mr. O from the Children's Museum of Houston, we take a look at a Nobel Prize winning experiment!

Start with the comprehensive style guide! This guide demonstrates how you can use the downloadable fonts, logos, and palettes to create your own event and promotional materials. Fonts, logos, and palettes are available for both Frankenstein200 and Frankenstein200 L.I.F.E. Also...

This "L.I.F.E. Adventure Guide" will guide participants to each of your events three categories of activities (or "L.I.F.E. Divisions"): the Bioengineering Division, the Robotics Division, and the Responsible Innovation Division. For those familiar with other NISE projects, the Adventure Guide...

Welcome to the Frankenstein200 project! The downloadable welcome letter covers the basics of the Frankenstein200 project and kit, as well as the evaluation and reporting requirements for institutions that received a physical kit. The letter also includes a full list...

Training videos for each of the Explore Science: Let's Do Chemistry hands-on activities intended for staff and volunteer educators.

Researchers at the London Centre for Nanotechnology (LCN) are asking members of the public to help unlock the secrets of magnetism at the molecular scale by taking part in a citizen science project. The project’s website invites volunteers from across...

By: M. Gail Jones, Michael R. Falvo, Amy R. Taylor, and Bethany P. Broadwell NSTA Press Book, 2007 ISBN 978-1-93353-105-2 Member Price: $20.76, Nonmember Price: $25.95 Grade Level: Middle School, High School

This transmission electron microscope image shows a single silicon nanowire. Thermoelectric materials convert heat to electricity and vice versa. Most fossil-fuel-powered engines generate waste heat, so researchers are using nanotechnologies to explore ways of making thermoelectric devices more efficient in...

This scanning electron microscope image shows an indium arsenide (InAs) nanowire field-effect transistor. Semiconductor nanowires such as those of indium arsenide (InAs) offer exciting possibilities for the electronic systems of the future because of the unique possibilities they offer for...

Howtosmile is a collection of the best educational materials on the web, in addition to learning tools and services – all designed especially for those who teach school-aged kids in non-classroom settings. earch over 3,500 of the very best science...

This is a scanning electron microscope image of a silicon nanowire array synthesized for thermoelectric applications. Thermoelectric materials convert heat to electricity and vice versa. Most fossil-fuel-powered engines generate waste heat, so researchers are using nanotechnologies to explore ways of...

This is scanning electron microscope image of indium arsenide nanowires. Semiconductor nanowires such as those of indium arsenide (InAs) offer exciting possibilities for the electronic systems of the future because of the unique possibilities they offer for controlling fundamental properties...

This video follows the adventures of youth characters and their subatomic alter egos to explore how electrical conductors and high temperature superconductors work. This video was made as part of the Quarked! website ( www.quarked.org ), a grant-funded collaboration by...

This scanning electron micrograph shows a nanomechanical torsion oscillator used by computer engineers to measure extremely small amounts of torque. A nanomechanical torsion oscillator is used to measure extremely small torsion or twisting forces smaller than those created by the...

The NanoHub.org site hosts a rapidly growing collection of simulation programs for nanoscale phenomena that run in the cloud and are accessible through a web browser. In addition to simulation devices, the NanoHUB education page provides online presentations, courses, learning...

Inside Science TV produced by the American Institute of Physics features videos on nanotechnology including: Nanotech Material Protects Against Most Liquids

This is a photograph of an organic light-emitting diode (OLED). OLEDs are being used in the newest generation of television screens. An OLED is comprised of a thin organic film held between conductors. When electrical current is applied to the...

Step into the world of nanotechnology with Tiny Tech. Tiny Tech is a series of short radio episodes focusing on the science and engineering of the very small. Each episode presents an aspect of nanoscale objects, ranging from the effects...

Liquids that respond to a magnet? This is not science fiction, but science fact. In this segment, Dr. Ainissa Ramirez, shows the wonderful world of ferrofluids, which are iron particles floating in a liquid. When a magnet is nearby, the...

This scanning electron microscope image shows a silicon nanowire resting on two silicon nitride (SiNx) membranes. Thermoelectric materials convert heat to electricity and vice versa. Most fossil-fuel-powered engines generate waste heat, so researchers are using nanotechnologies to explore ways of...