Tuesday, May 12, 2009
More about Nitrates and Phosphates
http://www.ec.gc.ca/ceqg-rcqe/English/Html/GAAG_Nitrate_WQG.cfm
For phosphates/phosphorus:
http://www.ec.gc.ca/ceqg-rcqe/English/Html/GAAG_Phosphorus_WQG.cfm
Friday, April 24, 2009
May 2 is National Astronomy Day at Fernbank Museum
Tuesday, April 21, 2009
Don't forget Krystal the Quartz!
Once you've had enough of Rocky the Rock you can go to another section of the same page to work on your knowledge of minerals. Krystal the Quartz will instruct you and show you links to minerals games.
Meet Rocky the Rock!
Monday, April 20, 2009
Happy Earth Week!!
http://my.nature.org/earthday/
Research Regarding Kids and Video Games
http://www.washingtonpost.com/wp-dyn/content/article/2009/04/19/AR2009041902350.html?hpid%3Dmoreheadlines&sub=AR
Tuesday, March 31, 2009
What is a Black Hole?
This is good background information on black holes:
http://www.kidsastronomy.com/black_hole.htm
http://coolcosmos.ipac.caltech.edu/cosmic_kids/AskKids/blackholes.shtml
What happens if I get sucked into a black hole?
If you were sucked into a black hole, your energy would convert into heat, and your body would reach incredibly high temperatures. As your superheated self fell closer to the center of the black hole, you would cross a threshold called an event horizon. The event horizon is like a point of no return. After the event horizon, any light from your heat would no longer be visible. Your would collapse into the center of the black hole, which called a singularity. The singularity is a dimensionless (not 1-D, 2-D, 3-D, 4-D, etc...) object of infinite density.
Long story made short: You would be squashed!!! Well, squashed into a dimensionless object of infinite density with no light. Try drawing a picture of that!
Here are the sites I used to research this question.
http://kids.yahoo.com/science/space/article/blackhole
http://starchild.gsfc.nasa.gov/docs/StarChild/universe_level1/black_holes.html
Will looking at a solar eclipse make me blind??
http://eclipse.gsfc.nasa.gov/SEhelp/safety.html
At this website, Mr. Eclipse explains more about how to protect your eyes.
http://www.mreclipse.com/Totality2/TotalityCh11.html
Even staring at the Sun on a regular day is dangerous. Be careful!
Sunday, March 29, 2009
Spring Tide vs. Neap Tide
Tides?? Here are some helpful resources.
http://videos.howstuffworks.com/hsw/10000-the-moon-tides-video.htm
This page also includes many different videos about the moon that answer some interesting questions such as 'How did the Moon form?'
The second video is from NASA:
http://www.nasaimages.org/luna/servlet/detail/NVA2~15~15~53648~124808:What-is-a-Tide
The animation at the link below illustrates how high and low tides work. There are about two high tides and two low tides every day.
http://science.nasa.gov/headlines/images/missingtides/dissipation.gif
Wednesday, March 25, 2009
Tuesday, March 24, 2009
Why do we always see the same part of the Moon?
Moon Phase Diagram and Animation
Here is an excellent animation of both the view of the moon from Earth and a diagram of the moon's position in relation to the Earth and Sun.
Check it out!
http://www.sumanasinc.com/webcontent/animations/content/moonphase.html
What is the Harvest Moon?
http://www.erh.noaa.gov/rnk/Newsletter/Fall%202006/Full_Moon_names.htm
Sunday, March 22, 2009
Why does a lunar eclipse make the Moon appear red or orange?
The next total lunar eclipse will not be visible until Dec. 2010.
Read more at the website below!
Thanks to Ms. Watner for finding this site!
http://science.nasa.gov/headlines/y2008/13feb_lunareclipse.htm
"Why does the sun shine?" by They Might Be Giants
A gigantic nuclear furnace
Where hydrogen is built into helium
At a temperature of millions of degrees
Yo ho, it's hot, the sun is not
A place where we could live
But here on Earth there'd be no life
Without the light it gives
We need its light
We need its heat
We need its energy
Without the sun, without a doubt
There'd be no you and me
The sun is a mass of incandescent gas
A gigantic nuclear
Where hydrogen is built into helium
At a temperature of millions of degrees
The sun is hot
It is so hot that everything on it is a gas: iron, copper, aluminum, and many others.The sun is largeIf the sun were hollow, a million Earths could fit inside. And yet, the sun is only a middle-sized star.
And even when it's out of sight
The sun shines night and day
The sun is far away
About 93 million miles away, and that's why it looks so small.
The sun gives heat
The sun gives light
The sunlight that we see
The sunlight comes from our own sun's
Atomic energy
Scientists have found that the sun is a huge atom-smashing machine. The heat and light of the sun come from the nuclear reactions of hydrogen, carbon, nitrogen, and helium.
The sun is a mass of incandescent gas
A gigantic nuclear furnace
Where hydrogen is built into helium
At a temperature of millions of degrees
Hear the original song:
http://www.youtube.com/watch?v=Zbgul1NpEA8&feature=related
Here is a slowed down version featuring real images of the Sun and Earth:
http://www.youtube.com/watch?v=cds3sIzSf_I&feature=related
Fun Site for Energy Resources
http://www.eere.energy.gov/kids/
UNICEF Video about World Water Day
http://www.youtube.com/watch?v=wXR4Z_NBD-E&feature=related
This video, featuring the Madden brothers from Good Charlotte, focuses on conditions in the Central African Republic, a country ravaged by three civil wars over the last ten years. A $1 donation can provide 40 days of clean water for a child.
http://www.youtube.com/user/unicef
Saturday, March 21, 2009
TEST Monday!
March 22nd is World Water Day!
http://www.unwater.org/worldwaterday/flashindex.html
Wednesday, March 18, 2009
Monday, March 16, 2009
Flash Animation for Groundwater
This is a great link for additional review. Enjoy!
Thursday, March 12, 2009
Monday, March 9, 2009
Resource for Further Research
http://www.koshland-science-museum.org/exhibitgcc/index.jsp
Diagrams for Review
Diagram 1 Source: http://blog.mlive.com/muskegon_chronicle_extra/large_groundwater%20art%20.jpg
Diagram 2 Source: http://www.google.com/imgres?imgurl=http://www.usgcrp.gov/usgcrp/images/ocp2003/WaterCycle-optimized.jpg&imgrefurl=http://www.usgcrp.gov/usgcrp/images/ocp2003/ocpfy2003-fig5-1.htm&h=539&w=686&sz=154&tbnid=iEGhwEkBmif7pM::&tbnh=109&tbnw=139&prev=/images%3Fq%3Dwater%2Bcycle&usg=__z7SnebQ_iflMHi7iyq6ZQEoLIss=&ei=sv6ISZTjG6KBtwfF2LmfBw&sa=X&oi=image_result&resnum=1&ct=image&cd=1
Thursday, March 5, 2009
How does your child feel about mountaintop removal coal mining?
http://www.ilovemountains.org/action/epa
Here is more information about moutaintop removal:
http://en.wikipedia.org/wiki/Mountaintop_removal
Wednesday, March 4, 2009
Lab Report Helper
Lab
Report Helper
Question:
WHAT IS THE QUESTION THAT IS BEING ANSWERED IN THIS LAB?
Variables:
STATE THE INDEPENDENT AND DEPENDENT VARIABLES. LIST
EXPERIMENTAL CONTROLS.
Hypothesis:
IS ALWAYS AN IF THEN STATEMENT.
If
… then … because.
WHAT
DO YOU PREDICT WILL HAPPEN? IDENTIFY YOUR INDEPENDENT AND DEPENDENT
VARIABLES AND HOW WILL THE INDEPENDENT VARIABLE AFFECT THE DEPENDENT
VARIABLE.
Materials:
LIST
EVERYTHING YOU USED! Include quantities of each item.
Procedure:
Is a detailed, numbered list of steps.
THE
FOLLOWING IS AN EXAMPLE OF WHAT IT SHOULD LOOK LIKE:
Gather
materials
Rip
leaves into little pieces and put the pieces into the plastic cup
Cut
the coffee filter in half and tape it to the center of the popsicle
stick.
Pour
1 ½” of the nail polish remover into the cup
Place
the popsicle stick over the top of the cup so the coffee filter is
just touching the nail polish remover.
Label
cup with group number and members’ names.
Place
the cup on a windowsill for 24 hours.
8.
Clean up all materials.
Data:
see attached.
YOU
MAY ATTACH A BAR GRAPH, DATA TABLE, CHART ETC… YOU DO NOT
HAVE TO REWRITE IT AGAIN, UNLESS IT IS IN YOUR NOTEBOOK OR IT IS TOO
SLOPPY TO BE CONSIDERED A FINAL DRAFT. REMEMBER THAT YOUR DATA WILL
BE SPECIFIC TO YOUR GROUP. IT WILL NOT CONTAIN THE SAME INFORMATION
THAT OTHER GROUPS WILL HAVE. IF YOU ARE MISSING DATA, GET IT FROM
SOMEONE IN YOUR GROUP!
Conclusion:
YOU CAN USE THE FOLLOWING GUIDELINES FOR YOUR CONCLUSION:
In
class, we have been studying _______________________
The
question we were trying to answer during our experiment was, ______
_________________________.
My hypothesis was if ________________________________,
then_______________________________ will happen. I thought this
because _______________________________________ . My hypothesis
was/was not supported by the data. (IT HAS TO BE ONE OR THE OTHER
– WHAT DOES YOUR DATA SHOW? WAS YOUR
HYPOTHESIS
SUPPORTED BY THE DATA OR NOT?) IF YOU PRODUCED DATA THAT WAS
INCORRECT OR SURPRISING TO YOU, WHY MIGHT THAT HAVE HAPPENED? IF
YOUR DATA WAS INCONCLUSIVE, SAY THAT YOU DO NOT HAVE ENOUGH
INFORMATION TO KNOW. WHAT SOME POSSIBLE SOURCES OF ERROR? WRITE A
SENTENCE OR TWO ABOUT THAT
HERE:__________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________
1
Rubric for Experimental Design
Name:
__________________________
Team:
__________________________
Class:
______
Lab:
____________________________
Rubric
for Experimental Design
Adapted
From: Doran, Rodney L., Boorman, Joan, Chan, Fred, and
Hejaily, Nicholas. Authentic Assessment: An instrument for
consistency, The Science Teacher, September, 1993. Chicago
Public Schools Bureau of Student Assessment
Note:
Each applicable item is checked separately, with one point
awarded for each correct item.
Statement
of Hypotheses
Effect linked to variable
Directionality of effect
Expected effect/change
Independent variable
Dependent variable
Procedure
for Investigation
Resolves experimental
problem/feasibility
Sequenced and detailed
plan
General strategy
Safety procedures
Use of equipment/diagram
of set-up
Plan
to Record and Organize Observations/Data
Space for
measured/calculated data
Matched to plan
Organized sequentially
Labeled fully (units
included)
Variables identified
Quality
of the Observations/Data
Consistent data
Accurate
measurements/observations
Completed data table
Correct units
Qualitative description
If a graph is
appropriate, the graph is accurate, appropriate, and correctly
labeled
Forms
a Conclusion from the Experiment
Consistent with
scientific principle
Sources of error
Consistent with
question, hypothesis, and data
Relationship among
variables stated
Variables
stated in conclusion