Implementation of lesson - modeling earth science concepts
Implementation of this lesson proved to be a challenge. As I am currently on summer break, I taught the lesson to a multi-age group of students at my sons' summer camp. The lesson was written, and intended, for use with my sixth grade students. The group of students that were present on the day the lesson was presented ranged from 1st - 5th grade. I think that by using the model, students were able to see the concept a little more clearly.
I used Snickers candy bars to demonstrate how plate tectonics works. Students were able to manipulate the candy bars to mimic convergent and divergent plate boundaries. One of the biggest problems during my lesson was that I chose to do the instruction outside, and the candy bars were melting quickly. They were soft to begin with, so "breaking" them to look like the plate on Earth's crust was not successful. The students were able to see that at divergent boundaries, the caramel acted as the magma (asthenosphere) that came up to fill in the space left by the moving plates. Students were able to briefly see that mountains are formed at convergent boundaries. As the chocolate was soft, it was nearly impossible to see how subduction works. Finally, I wish I had had the students demonstrate the transform fault boundary first, as we live along the San Andreas Fault in California.
We discussed earthquakes and why they happen at certain locations. I opened the lesson with the questions, "What do we practice every October? Why do we practice this?" Every October, California has a state-wide earthquake drill called the Great California Shakeout. By starting with these questions, students began to think about the movements of Earth and responses indicated some background knowledge of earthquakes.
I truly think that the lesson will go much smoother when I teach it to sixth graders. Also, I will make sure that the candy bars have been refrigerated before hand, so as not to melt so quickly. I anticipate having greater success with this concept with the older students. Finally, this lesson was intended to be used during a unit of study on plate tectonics and earthquakes, not as a single lesson.
Sunday, July 29, 2012
Sunday, July 22, 2012
Natural Disasters
Natural Disasters
During my earthquake unit, I have shown students photos and footage of the devastation of the Northridge Earthquake of 1994, an area only 2 hours from where we live. Students are amazed at the amount of destruction locally an earthquake can create. Bridges fell, freeways were destroyed, entire communities were red-tagged (unfit to return to even to gather belongings). We happened to be studying earthquakes when the Japan earthquake hit 2 years ago and the ensuing tsunami. I also accessed footage and information about the quake and tsunami during that time period. Tsunami warnings were issued several times during the past couple of years for the CA coast, fearing they would be triggered by an undersea earthquake somewhere else in the Pacific Ocean. Fortunately, we did not have a tsunami occur, but the students asked many questions about what would happen to our area. We live far enough inland that we would be safe, but we discussed coastal areas and those that would potentially be affected.
During my volcano unit, we discuss the devastating eruption of Mt. St. Helens and view photos and footage of this catastrophic event. Until students see the actual photos from the devastated area, they really do not understand the enormity of these disasters. I think by introducing these topics of discussion during the units, students are more in tune with what can really happen.
We live along the San Andreas fault in southern California. I explain to students and show photos of areas along the fault line that can be seen on the ground; places where the road has shifted or the crack in the crust is big enough to stand inside of. I would love to find resources to take the students on a field trip to one of the areas where the San Andreas fault is evident on Earth’s surface - give students an opportunity to view first hand what happens when “Mother Nature” unleashes her fury.
There are some great web resources that can be found. One that I particularly like is kidshealth.org. I’ll post the link below. This site offers tips for parents and kids on ways they can help the relief effort. Students can hold a fundraiser, donate items, and begin community events to help with relief efforts. It also has links to other sites for donating money, if they are able. It suggests starting off small, it says “you do not need a large group of people to help”. I think that is the key. So often, we think that a relief effort needs to be gargantuan to make a difference. Not so. If each school district in my area had a small fundraiser and even raised $500.00, that would be about $3000.00. If all the areas held something, think about how much that would help.
Geological timeline
As an earth science teacher, I have the pleasure of helping students understand that Earth is a dynamic system, one that is ever changing. Over the past couple of weeks, I have had the opportunity to travel cross country with my two children. During our journeys, we visited sites such as the Painted Desert and the Petrified Forest in Arizona. We also drove through the Rocky Mountains of Colorado, over the Continental Divide at Monarch Pass, which is over 14,000 ft in elevation. I was able to take many pictures, of which I will share with my students at the start of the school year, depicting the sediment layers of Earth. Students will be able to see, through my personal photos, landforms created from wind and water erosion. We will also be able to discuss the fossil record based upon my learnings from the Petrified Forest. Discussions of mountains and mountain building processes will also ensue. I am excited to be able to share these experiences with my students. Although I live and teach in Southern California, most of my students will not have had the experience of seeing these sights, even though they are only a day's drive away.
Subscribe to:
Comments (Atom)