Sand, Plants and Pants is a hands-on activity exploring how the application of nano-sized particles or substances can change a bigger material’s properties. Visitors investigate the hydrophobic properties of plants, nano-fabric pants and magic sand.
"DNA Nanotechnology" is a facilitated, hands-on activity exploring deoxyribonucleic acid, a nanoscale structure that occurs in nature. Visitors extract a sample of DNA from split peas and put it in an Eppendorf tube to take home. They learn that nanoscientists...
"Exploring the Universe: Imagining Life" is a hands-on activity in which visitors imagine and draw an extreme environment beyond Earth, then invent a living thing that could thrive in it. They learn that NASA scientists study extremophiles on Earth to...
In this episode of O Wow Moments from the Children’s Museum of Houston, Mr. O is up against the supervillain Dr. Blot and his desire to stain everyone! Actually, it's just a fun excuse to examine how nanotechnology and nanoscale...
In this film "Zoom into a Lotus Leaf," see an up close look at the tiny nanostructures that give the leaf its unique behavior. The Lotus Leaf is a symbol of purity because it appears to be perpetually clean. We...
Scanning electron microscope image of the surface of a lotus leaf. • SIZE: Scale bar representes 100 µm • IMAGING TOOL: Table-top Scanning Electron Microscope (SEM)
In this interactive piece, visitors can zoom into the structures on the surface of a nasturtium leaf. Electron micrographs reveal the nanoscale structures that make water bead on the surface of the leaf. Zoom Into a Nasturtium Leaf can be...
Visitors will engage in activities showing various natural phenomena that scientists and engineers have emulated to address human problems. Visitors view peacock feathers at different angles to see iridescence, apply drops of water to observe the color changes, and look...
Scanning electron microscope image of the surface of a lotus leaf. • SIZE: Scale bar representes 200 µm • IMAGING TOOL: Table-top Scanning Electron Microscope (SEM)
Nanoscale science and technology ("nano" for short) is all around us and growing rapidly. Discovery how nanotechnology found in nature may eventually be applied to make even the most mundane tasks like scrubbing toilets a thing of the past!
"Lotus Leaf Effect" is a cart demo that demonstrates how nature inspires nanotechnology by sharing how nanoscale features on a surface can influence how a material behaves at the macroscale. Visitors learn that lotus leaves (and many other plant leaves)...
This activity models some of the ways natural processes, such as erosion and sediment pollution, affect Earth’s landscape. Data collected from satellites, such as the joint NASA/USGS Landsat satellites, help improve our understanding of Earth’s land cover. Orbiting Earth, these...
"Exploring Structures - DNA" is a hands-on activity in which visitors create a necklace of wheat germ DNA. They learn that self-assembly is a process by which molecules and cells form themselves into functional structures.
This formative evaluation was conducted to see how the addition of an interactive media piece enhanced visitors' understanding of Nasturtium, a life sciences exhibit that demonstrates the water repelling properties of nasturtium leaves. The media piece allows the visitor to...
New tools—like "CRISPR"—are making it possible to edit DNA with great precision. Soon, we will be able to accurately alter targeted sections of the genome of other animals and plants, as well as our own DNA. But should we? In...
The NanoZone is both a website and a permanent exhibition at UC Berkeley's Lawrence Hall of Science. The exhibition introduces basic nanoscale and state-of-the-art nanotechnology science to an 8 to 14-year-old audience. Content focuses on the smallness of a nanometer,...
The Lotus Effect describes water droplets rolling off leaf surfaces, removing dirt and contaminants in the process. This phenomenon can also be seen in the more common nasturtium. Scanning electron microscope images show that nasturtium leaves are covered by waxy...
The Lotus Effect describes water droplets rolling off leaf surfaces, removing dirt and contaminants in the process. This phenomenon can also be seen in the more common nasturtium. Scanning electron microscope images show that nasturtium leaves are covered by waxy...
The Lotus Effect describes water droplets rolling off leaf surfaces, removing dirt and contaminants in the process. This phenomenon can also be seen in the more common nasturtium. Scanning electron microscope images show that nasturtium leaves are covered by waxy...
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 scanning electron microscope image shows pollen particles from a variety of common plants: sunflower, morning glory, hollyhock, lily, primrose, and castor bean. • SIZE: The smallest pollen grains are about 6-8 µm in diameter. • IMAGING TOOL: Scanning electron...
Narrated by Stephen Fry, this film explores the strange world of nanoscience. www.nanoyou.eu Produced with the assistance of Nanoscience Centre, University of Cambridge Produced and DIrected by Tom Mustill Narrated by Stephen Fry
The Lotus Effect describes water droplets rolling off leaf surfaces, removing dirt and contaminants in the process. This phenomenon can also be seen in the more common nasturtium. Scanning electron microscope images show that nasturtium leaves are covered by waxy...
The Lotus Effect describes water droplets rolling off leaf surfaces, removing dirt and contaminants in the process. This phenomenon can also be seen in the more common nasturtium. Scanning electron microscope images show that nasturtium leaves are covered by waxy...