Hi Everyone
If you are currently enrolled in one of my classes you can go here to view the virtual classroom: https://myecsd/schools/8405/Collaboration/Virtual%20Class%20Rooms/default.aspx
To login, use your school id and password.
Please contribute to the Team Discussion!
Miss B's Science Blog
Monday, October 3, 2011
Sunday, September 11, 2011
DIY: Make your own magnetic putty!
This instructable shows you how to make your very own magnetic putty... and it is really easy!
See all the steps: http://www.instructables.com/id/magnetic-silly-putty/
Then you can play with it:
Natural Works of Art - Sand under a Microscope
Sand is a fascinating substance and very different all over the world. It can be composed of the remnants of volcanic explosions, eroded mountains, dead organisms, and even degraded man-made structures. And examined closely enough, as the scientist and artist Gary Greenberg has, sand can reveal spectacular colors, shapes, and textures. See more at Discover Magazine here.
Taketomi Island, Okinawa, Japan
Looking like a puffy white star studded with little pearls, this is the shell of an amoeboid protist called a foraminifera, or foram. An estimated four thousand types of forams live in the world's oceans.
The shells, called tests, are made mainly of calcium carbonate, which the animals derive from carbon atoms in the air and water. Forams thus play a significant role in the carbon cycle. (Magnification 75x) [From Discover Magazine]
The shells, called tests, are made mainly of calcium carbonate, which the animals derive from carbon atoms in the air and water. Forams thus play a significant role in the carbon cycle. (Magnification 75x) [From Discover Magazine]
Plum Island, Massachusetts
Metamorphic minerals, which form at high temperatures and pressures underground, can become heavy, brightly colored sands like these. But color is often unreliable for identifying different types of sands.
Here, the pink and red grains are garnet, but garnet can also be brown, black, green, or orange, depending on the chemistry. The bright green epidote in the center can also be gray, brown, or nearly black. The angular, black magnetite--the most common naturally occurring magnetic material on earth--is always black, however, and is frequently found near garnet. (Magnification 95x) [From Discover Magazine]
Here, the pink and red grains are garnet, but garnet can also be brown, black, green, or orange, depending on the chemistry. The bright green epidote in the center can also be gray, brown, or nearly black. The angular, black magnetite--the most common naturally occurring magnetic material on earth--is always black, however, and is frequently found near garnet. (Magnification 95x) [From Discover Magazine]
Maui, Hawaii
Not all sand is made of tiny bits of rock. Biogenic sand, which forms from the remains of marine life, is the major ingredient of many tropical beaches. The grains here are tiny fragments of a baby sea urchin shell.
The raised bumps on the white grain represent the sites of insertion for the sea urchin's spines. The blue grain has eroded to the point that the raised bumps have been completely rubbed off. (Magnification 100x) [From Discover Magazine]
The raised bumps on the white grain represent the sites of insertion for the sea urchin's spines. The blue grain has eroded to the point that the raised bumps have been completely rubbed off. (Magnification 100x) [From Discover Magazine]
Wednesday, September 7, 2011
Amazing Photography: Dew-Covered Insects
Photographer Miroslaw Swietek took the magnificent macro photo of a dragonfly covered in dew. To see more incredible photos by Swietek go here.
12 Events That Will Change Everything
Scientific American has made an interactive animation to give a peek at the 12 EVENTS THAT WILL CHANGE EVERYTHING. Explore the animation here!
Crooked Forest
In western Poland, a forest of about 400 pine trees grow with a 90 degree bend at the base of their trunks AND --> all bent northward.
The trees were planted around 1930, and it is believed that they grew for 7-10 years before tree farmers used a mechanical device to hold the trees in the bent formation.
You can see more at the Discovery News site here.
The trees were planted around 1930, and it is believed that they grew for 7-10 years before tree farmers used a mechanical device to hold the trees in the bent formation.
You can see more at the Discovery News site here.
Wednesday, June 1, 2011
Science 30: Energy Technology Links
Please use your textbook and the following links to help you fill out the summary chart for the 12 energy technologies. I also encourage you to do further reading on the internet about each one! Try to think critically when evaluating sources, as many resources will be biased towards a certain technology. Please understand the science behind the technology and then come up with your own opinions and discuss with others in the class.
It is important to understand how each technology works and to know the main energy transformations involved. You must also be able to differentiate between active and passive solar energy.
Coal-fired power plant:
http://www.energyfutures.qld.gov.au/how_a_coal_fired_power_station_works.cfm
http://www.hk-phy.org/energy/power/elect_phy/flash/powerplant_icon1.swf
Nuclear power plant:
http://a-agung.staff.ugm.ac.id/wp-content/nuctour1.swf
http://science.howstuffworks.com/nuclear-power3.htm
Hydroelectric power generating facility:
http://science.howstuffworks.com/environmental/energy/hydropower-plant1.htm
http://ga.water.usgs.gov/edu/hyhowworks.html
Tidal power generating facility:
http://www.odec.ca/projects/2006/wong6j2/tidalAnimation.html
http://www.odec.ca/projects/2006/wong6j2/tidal.html
Wind turbine:
http://www1.eere.energy.gov/windandhydro/wind_animation.html
Passive solar heating:
http://www.energysavers.gov/your_home/designing_remodeling/index.cfm/mytopic=10250
Photovoltaic cell:
http://www.odec.ca/projects/2006/wong6j2/solarAnimation.html
http://simeonintl.com/files/A_flash_demo_how_solar_panel_works.swf
Geothermal heating:
http://www.wfiglobal.com/heatingcycleanimation.asp
http://www.keepingyouwarm.com/flash-56k-800x600.swf
Geothermal electricity generating facility:
http://www1.eere.energy.gov/geothermal/gpp_animation.html
Ethanol fuel:
http://oee.nrcan.gc.ca/publications/infosource/pub/vehiclefuels/ethanol/M92_257_2003.cfm
http://www.cbc.ca/news/background/energy/ethanol.html
Hydrogen fuel cell (automobile):
http://auto.howstuffworks.com/fuel-efficiency/alternative-fuels/fuel-cell.htm
It is important to understand how each technology works and to know the main energy transformations involved. You must also be able to differentiate between active and passive solar energy.
Coal-fired power plant:
http://www.energyfutures.qld.gov.au/how_a_coal_fired_power_station_works.cfm
http://www.hk-phy.org/energy/power/elect_phy/flash/powerplant_icon1.swf
Nuclear power plant:
http://a-agung.staff.ugm.ac.id/wp-content/nuctour1.swf
http://science.howstuffworks.com/nuclear-power3.htm
Hydroelectric power generating facility:
http://science.howstuffworks.com/environmental/energy/hydropower-plant1.htm
http://ga.water.usgs.gov/edu/hyhowworks.html
Tidal power generating facility:
http://www.odec.ca/projects/2006/wong6j2/tidalAnimation.html
http://www.odec.ca/projects/2006/wong6j2/tidal.html
Wind turbine:
http://www1.eere.energy.gov/windandhydro/wind_animation.html
Passive solar heating:
http://www.energysavers.gov/your_home/designing_remodeling/index.cfm/mytopic=10250
Photovoltaic cell:
http://www.odec.ca/projects/2006/wong6j2/solarAnimation.html
http://simeonintl.com/files/A_flash_demo_how_solar_panel_works.swf
Geothermal heating:
http://www.wfiglobal.com/heatingcycleanimation.asp
http://www.keepingyouwarm.com/flash-56k-800x600.swf
Geothermal electricity generating facility:
http://www1.eere.energy.gov/geothermal/gpp_animation.html
Ethanol fuel:
http://oee.nrcan.gc.ca/publications/infosource/pub/vehiclefuels/ethanol/M92_257_2003.cfm
http://www.cbc.ca/news/background/energy/ethanol.html
Hydrogen fuel cell (automobile):
http://auto.howstuffworks.com/fuel-efficiency/alternative-fuels/fuel-cell.htm
Monday, May 9, 2011
Sensory Illusions
Our brain tries to fill in the gaps in what we perceive and sometimes errors occur. Optical illusions, auditory illusions, and magic tricks take advantage of this.
Test your own senses and take the BBC's sense challenge: http://www.bbc.co.uk/science/ humanbody/body/interactives/ senseschallenge/
Some sites that have specific illusions:
Spanish Castle Illusion: http://www.johnsadowski.com/ big_spanish_castle.php
Watercolour Illusion: http://www.scholarpedia.org/ article/Watercolor_illusion
This is the Rene Magritte Museum in Brussels, Belgium. He was a surrealist artist in the early 1900s and famously exploited human perceptual errors to make interesting, thought-provoking paintings. You can see more of his work here: http://www.all-art.org/art_20th_century/magritte1.html
Many artists use a knowledge of perception to create art, but another famous and very clear example of this is M.C. Escher.
Test your own senses and take the BBC's sense challenge: http://www.bbc.co.uk/science/
Some sites that have specific illusions:
Spanish Castle Illusion: http://www.johnsadowski.com/
Watercolour Illusion: http://www.scholarpedia.org/
Dragon Illusion: http://www.grand-illusions. com/opticalillusions/dragon_ illusion/
Backmasking of Music: http://jeffmilner.com/ backmasking/stairway-to- heaven-backwards.html
Above is the Hermann Grid Illusion
The following are links that contain various optical illusions:
This is the Rene Magritte Museum in Brussels, Belgium. He was a surrealist artist in the early 1900s and famously exploited human perceptual errors to make interesting, thought-provoking paintings. You can see more of his work here: http://www.all-art.org/art_20th_century/magritte1.html
Many artists use a knowledge of perception to create art, but another famous and very clear example of this is M.C. Escher.
Thursday, May 5, 2011
Biology 30: Exploring Virtual Neurons
Use these online animations to help you study and understand how a nerve impulse travels down the axon, how resting membrane potential is maintained, and the mechanism of neurotransmitter release in the synapse.
Click on image above to read all labels.
Explore this website to see animations for all of these processes and mechanisms in the neuron: http://icarus.med.utoronto.ca/neurons/index.swf
A virtual neuron - see how it behaves here: lhttp://www.childrenshospital.org/research/Site2029/mainpageS2029P23sublevel51.html
See how resting membrane potential is maintained here: http://www.sumanasinc.com/webcontent/animations/content/electricalsignaling.html
An animation of an action potential here: http://outreach.mcb.harvard.edu/animations/actionpotential.swf
Another animation for nerve impulse/action potential here: http://highered.mcgraw-hill.com/sites/0072495855/student_view0/chapter14/animation__the_nerve_impulse.html
This one shows the changes in the ion channels during an action potential. Make sure you know where sodium and potassium move during depolarization and repolarization. You can check it out here: http://www.blackwellpublishing.com/matthews/channel.html
More animations from the same organization that did the last animation. Check out "Propagation of an action potential" and "Synaptic vesicle fusion and neurotransmitter release" here: http://www.blackwellpublishing.com/matthews/animate.html
Click on image above to read all labels.
Explore this website to see animations for all of these processes and mechanisms in the neuron: http://icarus.med.utoronto.ca/neurons/index.swf
A virtual neuron - see how it behaves here: lhttp://www.childrenshospital.org/research/Site2029/mainpageS2029P23sublevel51.html
See how resting membrane potential is maintained here: http://www.sumanasinc.com/webcontent/animations/content/electricalsignaling.html
An animation of an action potential here: http://outreach.mcb.harvard.edu/animations/actionpotential.swf
Another animation for nerve impulse/action potential here: http://highered.mcgraw-hill.com/sites/0072495855/student_view0/chapter14/animation__the_nerve_impulse.html
This one shows the changes in the ion channels during an action potential. Make sure you know where sodium and potassium move during depolarization and repolarization. You can check it out here: http://www.blackwellpublishing.com/matthews/channel.html
More animations from the same organization that did the last animation. Check out "Propagation of an action potential" and "Synaptic vesicle fusion and neurotransmitter release" here: http://www.blackwellpublishing.com/matthews/animate.html
Thursday, April 21, 2011
Sunday, April 17, 2011
Saturday, April 16, 2011
Beautiful Images: Stingrays!
There have been some interesting posts about stingrays lately. Above is an X-Ray image of Heliotrygon gomesi, one of two new species of freshwater “pancake” stingrays discovered in the Amazon rain forest. You can see more information and pictures at Our Amazing Planet.
This photograph by Sandra Critelli is of Golden Rays taken off the Mexican Coast. Golden Rays grow up to seven feet across and migrate within the Caribbean. The spectacular scene was captured as the magnificent creatures made one of their biannual mass migrations to more agreeable waters. Despite having poisonous stingers they are known to be shy and non-threatening when in large schools. These schools can be as large as 10,000 stingrays. You can read more here and see more pictures here.
This photograph by Sandra Critelli is of Golden Rays taken off the Mexican Coast. Golden Rays grow up to seven feet across and migrate within the Caribbean. The spectacular scene was captured as the magnificent creatures made one of their biannual mass migrations to more agreeable waters. Despite having poisonous stingers they are known to be shy and non-threatening when in large schools. These schools can be as large as 10,000 stingrays. You can read more here and see more pictures here.
Deadliest Science: Biology, Chem, or Physics?
Comic from: dD in an eggroll
Blogger Alex "Sandy" Antunes wrote an article on Science 2.0 that explores which science causes the most deaths.
According to movies, physics would be the clear winner: car crashes, gunshot wounds, bicycle accidents, falling down, people hitting each other, and war are all physics-driven deaths.
Chemistry related deaths would be toxins, poisons, drugs, alcohol, or drowning.
But... biology is the deadliest. Since heart disease, cancer, and stroke kill the most people in North America, as well as disease and infection throughout the world's population.
You can read the full article here: http://www.science20.com/daytime_astronomer/which_science_kills_more_people-77520
Blogger Alex "Sandy" Antunes wrote an article on Science 2.0 that explores which science causes the most deaths.
According to movies, physics would be the clear winner: car crashes, gunshot wounds, bicycle accidents, falling down, people hitting each other, and war are all physics-driven deaths.
Chemistry related deaths would be toxins, poisons, drugs, alcohol, or drowning.
But... biology is the deadliest. Since heart disease, cancer, and stroke kill the most people in North America, as well as disease and infection throughout the world's population.
You can read the full article here: http://www.science20.com/daytime_astronomer/which_science_kills_more_people-77520
Glacier Caves
"Working with an expedition cruise company that sails to the world's most remote places like Alaska and the Arctic, Eric Guth is constantly surrounded by large bodies of ice.
Six years ago, he spotted a small opening on the edge of Mendenhall Glacier in Juneau, Alaska. He hiked to it with the intent of walking around as he'd seen others do before. But something compelled him to look inside."
Now he has spent the last six years searching for glaciers, exploring them, and photographing the formations.
You can read more about Eric Guth and see more of his photographs at http://www.mymodernmet.com/profiles/blogs/inside-glacier-caves-17-photos
Six years ago, he spotted a small opening on the edge of Mendenhall Glacier in Juneau, Alaska. He hiked to it with the intent of walking around as he'd seen others do before. But something compelled him to look inside."
Now he has spent the last six years searching for glaciers, exploring them, and photographing the formations.
You can read more about Eric Guth and see more of his photographs at http://www.mymodernmet.com/profiles/blogs/inside-glacier-caves-17-photos
Spiderweb Trees
"Here’s a delightful morning snack: When Pakistan experienced severe flooding last year, it had the unexpected and rather creepy-crawly side effect of driving millions upon millions of spiders to the trees, where they could escape the floodwater. Since the flooding lasted for such a long time, many trees became blanketed in thick layers of web.
But according to the UK government, which assisted in the flood release effort this may have actually had a positive health effect: On-the-ground reports suggest that there are fewer mosquitos than would have been expected after the influx of so much stagnant water. This, in turn, may have reduced the very real risk of malaria to local populations afflicted with flooding. The web-coated trees, however, remain scary-looking."
This information and the pictures were taken from http://www.geekosystem.com/spiderweb-trees-pakistan/
But according to the UK government, which assisted in the flood release effort this may have actually had a positive health effect: On-the-ground reports suggest that there are fewer mosquitos than would have been expected after the influx of so much stagnant water. This, in turn, may have reduced the very real risk of malaria to local populations afflicted with flooding. The web-coated trees, however, remain scary-looking."
This information and the pictures were taken from http://www.geekosystem.com/spiderweb-trees-pakistan/
A Bright Idea!
"Maria and Igor Solovyov (Solovyov Design) are industrial designers based in Minsk, Belarus. One of their recent projects is “Insight”, the ingenious concept for an energy efficient lamp shaped like the human brain."
You can see more pictures at http://viacomit.net/2011/04/04/insight-by-solovyov-design/
Sunday, March 6, 2011
Wild Pets!
Research on domesticating wild animals has gotten some press lately. Not only does this research provide a possibility for neat pets... but we are learning more about genetics and selective breeding.
Foxes have actually been used in this research for many years. One study has been continuing for 45 years! Each generation has been selectively bred for tameness—fearlessness and nonaggression toward humans. By now the foxes in the project behave like pet dogs, barking and wagging their tails at humans. Also, instead of having a red coat colour, these domesticated foxes have a "piebald" colour.
National Geographic has a great article this month on taming wild animals. You can read more and see more pictures on the website: http://ngm.nationalgeographic.com/2011/03/taming-wild-animals/ratliff-text
Would you like a pet fox?
It Tastes Like Chicken
The field of culinary evolution faces one great dilemma: why do most cooked, exotic meats taste like cooked Gallus gallus, the domestic chicken?
It is curious that so many animals have a similar taste. Did each species evolve this trait independently or did they all inherit it from a common ancestor? That is the burning question.
Using a diagram that shows how some kinds of organisms evolved from other kinds of organisms. This is a "tree" of evolutionary ancestry. Then the author and researcher created a tree using flavours of their meat to see if animals that taste similarly have similarly tasting ancestors.
You can read more about the process through this link: http://www.neatorama.com/2011/02/22/tastes-like-chicken-2/
Comic from Toothpaste for Dinner 2006
Making Things Glow in the Dark
You can make... GLOW IN THE DARK FLOWERS:
It’s a simple process. Just drain the contents of a magic marker into a jar of water. Cut the stems off of some flowers and stick them in the jar. Let the flowers sit in the solution overnight. In the morning, after they have absorbed the fluorescent dye, they’ll glow in the dark when exposed to ultraviolet light.
You can make... GLOW STICKS:
It’s a simple process. Just drain the contents of a magic marker into a jar of water. Cut the stems off of some flowers and stick them in the jar. Let the flowers sit in the solution overnight. In the morning, after they have absorbed the fluorescent dye, they’ll glow in the dark when exposed to ultraviolet light.
You can make... GLOW STICKS:
Neat Trick...(the secret is chemistry)
The liquid is just water. The spoon is made of pure gallium and is completely solid.
BUT... because of the low melting point of gallium (only about 30 degrees)... the spoon disappears!
BUT... because of the low melting point of gallium (only about 30 degrees)... the spoon disappears!
Tuesday, February 15, 2011
Bio 30 - DNA Replication and Protein Synthesis Links
DNA Replication Video:
DNA Transcripion/Translation Video:
DNA Replication Animation:
(Please go through the entire animation)
http://www.wiley.com/college/pratt/0471393878/student/animations/dna_replication/index.html
Transcription Animation:
http://bcs.whfreeman.com/thelifewire/content/chp12/1202001.html
Translation Animation:
http://bcs.whfreeman.com/thelifewire/content/chp12/1202003.html
This website has shorter animations of Replication, Transcription, and Translation with quizzes as you work through the steps. To get to the other processes, use the left toolbar.
http://highered.mcgraw-hill.com/sites/0072507470/student_view0/chapter3/animation__protein_synthesis__quiz_3_.html
DNA Transcripion/Translation Video:
DNA Replication Animation:
(Please go through the entire animation)
http://www.wiley.com/college/pratt/0471393878/student/animations/dna_replication/index.html
Transcription Animation:
http://bcs.whfreeman.com/thelifewire/content/chp12/1202001.html
Translation Animation:
http://bcs.whfreeman.com/thelifewire/content/chp12/1202003.html
This website has shorter animations of Replication, Transcription, and Translation with quizzes as you work through the steps. To get to the other processes, use the left toolbar.
http://highered.mcgraw-hill.com/sites/0072507470/student_view0/chapter3/animation__protein_synthesis__quiz_3_.html
Thursday, February 10, 2011
Bioluminescent Bacteria
The Gippsland Lakes are a chain of lakes in eastern Victoria, Australia. A combination of fire and floods changed the conditions of the water and led to the proliferation of Synechococcus, a photosynthetic cyanobacteria.
BUT... the most interesting thing about these bacteria is that they are bioluminescent, or "glow" when there is any movement. This means that this bacteria will light up when there is a wave or ripple in the water, and wherever people played in the water. Read more about bioluminescence here.
Here are some spectacular pictures of these lakes. You can also see more here.
This is a picture of a rock skipping across the water.
BUT... the most interesting thing about these bacteria is that they are bioluminescent, or "glow" when there is any movement. This means that this bacteria will light up when there is a wave or ripple in the water, and wherever people played in the water. Read more about bioluminescence here.
Here are some spectacular pictures of these lakes. You can also see more here.
This is a picture of a rock skipping across the water.
Wearable Pollution Monitor!
Warning Signs is a visualization of the pollution that exists invisibly all around us. When the wearable senses carbon monoxide, the piece subtly changes color and pattern to indicate higher levels of carbon monoxide in the atmosphere to the wearer and those around him or her. This piece was designed and created by Nien Lam and Sue Ngo. You can learn more about these designs here.
Solar Wind Bridge
This bridge that harnesses both solar and wind energy has been designed by Italian architects.
The structure represents a bridge with large wind turbines mounted under it, between the pillars. The bridge will traverse a valley with large open space and the wind turbines will operate at high altitude where the speed of wind is higher, thus more green energy will be collected.
In addition, the "Solar Wind" will be able to harness solar energy, since its entire road will be covered with a dense network of solar cells. The latter will be coated with a see-through and highly resistant type of plastic.
It was said that the bridge will be able to generate 40 million kWh per year! (This would power half of the United States -- the largest energy consumer -- for the entire year.)
The structure represents a bridge with large wind turbines mounted under it, between the pillars. The bridge will traverse a valley with large open space and the wind turbines will operate at high altitude where the speed of wind is higher, thus more green energy will be collected.
In addition, the "Solar Wind" will be able to harness solar energy, since its entire road will be covered with a dense network of solar cells. The latter will be coated with a see-through and highly resistant type of plastic.
It was said that the bridge will be able to generate 40 million kWh per year! (This would power half of the United States -- the largest energy consumer -- for the entire year.)
Science Art - Quilled Anatomy
Quilling is a craft that involves coiling strips of paper and gluing them into different shapes. Sarah Yakawonis is an artist that has started to study anatomy through the art of quilling. You can follow her different projects on her blog: http://yakawonis.blogspot.com/
Her attention to detail is very impressive!
Her attention to detail is very impressive!
Subscribe to:
Posts (Atom)