When I posted the question : Is there a test to determine if gene regulators are functioning properly? If so, is there anything that can be given to people who’s cancer is spreading to, for lack of a better term, kick start their regulators into working overtime in specific areas? It didn't actually post.
The response I got was that they were going to search the database and see if anyone has asked a similar question. Is anyone else haivng this problem? I used the website provided to us in the resources part of week 2. HELP!
Sunday, July 15, 2012
Thursday, June 28, 2012
Web 2.0 Tools
When we were told that we were going to be required to use a web 2.0 tool to complete our course project I had already had it in my mind I was going to use a tool that I've worked with this past year. I was introduced to the Prezi Presentation web based software 2 years ago through a colleague, and loved what he had done with it. So I decided to try it out for myself.
Prezi - I will be honest, it does take some getting used to. However, once you get the hang of it you will love the way it presents itself. I like that you can embed videos right onto the canvas, and as the path turns to present it, the video automatically begins to play. The most fun is putting a question on the canvas, and then hiding the answer inside one of the words! The kids seems to LOVE seeing what is going to happen next. The coolest part of this program is that it has a public link, it can be shared around the world. Anyone that has internet access can see your work! It makes it very easy to share with colleagues.
Ahead- This seemed very similar to Prezi. I fooled around with some of the tools and did not find anything so spectacular that it made me want to use it. I think if someone was brand new, they would fare just fine using this program. I am only choosing Prezi over Ahead because I've used it before.
PreZentit - Sounded interesting, but the link would not work. It said they were still coming up with a new version??
Animoto - I love this tool!!! However, I do not love the price tag that comes along with it. The free version only allows 30 second videos, and it doesn't look like music can be added? I don't think I would use it enough for spend $30 a year, plus $2.50 monthly to make it worth my while to do a full length video. Maybe if I did photography on the side, it would be great to use for clients for weddings or engagement photo shoots. Not good for this project, I don't think I can get all the information that needed into a 30 second video.
BrainShark - I like this idea! It would be interesting to see how my students would react if they heard my voice through the speakers. Maybe this is a good idea to use for substitutes if you need the students to really understand a concept and you're worried about how the sub will explain the concept. Don't lie, you know you all worry when there is a sub in your room and you can't be there to monitor everything. We all get like that sometimes!!!
I think I'm going to stick with Prezi, I'm most familiar with it and many of the others seem like regular power point slides. Not too exciting!!!
Prezi - I will be honest, it does take some getting used to. However, once you get the hang of it you will love the way it presents itself. I like that you can embed videos right onto the canvas, and as the path turns to present it, the video automatically begins to play. The most fun is putting a question on the canvas, and then hiding the answer inside one of the words! The kids seems to LOVE seeing what is going to happen next. The coolest part of this program is that it has a public link, it can be shared around the world. Anyone that has internet access can see your work! It makes it very easy to share with colleagues.
Ahead- This seemed very similar to Prezi. I fooled around with some of the tools and did not find anything so spectacular that it made me want to use it. I think if someone was brand new, they would fare just fine using this program. I am only choosing Prezi over Ahead because I've used it before.
PreZentit - Sounded interesting, but the link would not work. It said they were still coming up with a new version??
Animoto - I love this tool!!! However, I do not love the price tag that comes along with it. The free version only allows 30 second videos, and it doesn't look like music can be added? I don't think I would use it enough for spend $30 a year, plus $2.50 monthly to make it worth my while to do a full length video. Maybe if I did photography on the side, it would be great to use for clients for weddings or engagement photo shoots. Not good for this project, I don't think I can get all the information that needed into a 30 second video.
BrainShark - I like this idea! It would be interesting to see how my students would react if they heard my voice through the speakers. Maybe this is a good idea to use for substitutes if you need the students to really understand a concept and you're worried about how the sub will explain the concept. Don't lie, you know you all worry when there is a sub in your room and you can't be there to monitor everything. We all get like that sometimes!!!
I think I'm going to stick with Prezi, I'm most familiar with it and many of the others seem like regular power point slides. Not too exciting!!!
Sunday, April 8, 2012
Energy is an up and down ride!
The topic I chose to investigate is the different states of energy and how energy is transferred and transformed. This would lead my students to dive into the concepts of potential and kinetic energy. There are lots of exciting ways to engage the students when introducing these topics. Dropping an egg from different heights, dropping other items that bounce are good ways as well.
As I was searching for different websites there was a common theme throughout them. Roller Coasters! Every little bit of a roller coaster ride displays a different state of energy.
This website has an animation of a roller coaster and at every point where the cart has a different state of energy it explains what type of energy it is.
I enjoyed this website because it has a large amount of websites that can give the students information about roller coasters.
This link is to an “offline” activity. Students will design their own roller coaster with certain stipulations. To add a little bit of flair, students will be given an iPod touch and told to video blog their triumphs and tribulations. Students will then show their video to the class and demonstrate their roller coaster and explain why they did what they did.
I think students would really enjoy doing this activity. The standards for Virginia want the students to be able to differentiate between potential and kinetic energy, and design or create a diagram to illustrate energy transformations (http://www.doe.virginia.gov/testing/sol/standards_docs/science/index.shtml).
Our school is equipped with many different types of technology. Every classroom has a SmartBoard, two student computers and wireless internet. Our school also has flip cameras and a classroom set of iPod touches. We often run into the problems of the internet not working exactly the way it should. This has been the largest problem we’ve faced these past 2 years. The other problem we frequently run into is the use of the computer labs. I would gladly do more graphing and activities on the computers except our computer labs have 25 computers and I have 1 out of 4 classes with under 25 students. Also, we have to go to a computer lab, and I need to reserve that lab in advance. If my classes get off schedule and we do not make it into the lab on the day I reserved then it is taken by another teacher.
I am envious of the teachers in our educational videos that we watch, the students all have tablets that they have IN their science classrooms. The students can immediately put their data into a table in a computer program and quickly generate a graph immediately. If I was able to have this resource at my fingertips I would be able to bring many more 21st century skills to my students.
Sunday, March 25, 2012
Hot Hot Hot!
Oh this week I had a blunder!!! Instead of just heating the water to a warmer temperature for our experiment, I BOILED it. THEN I decided to place the thermometer in. Big mistake!!! The thermomtere IMMEDIATELY exploded and I had to head back to school and grab a thermometer from my supplies!
I chose foil, plastic wrap, a shirt and a piece of paper to test as insulators. The heat energy in the water was moving through the air via radiation. These materials were being tested to see which one best slowed down that process. To my surprise, the shirt was the best insulator, however, it did become saturated with water that evaporated from the mug.
When I got this result I immediately starting thinking about different types of clothing and how they keep us warm. I would like to test out a sweatshirt, a t-shirt, a pair of jeans and a long sleeve shirt. I imagine that the sweatshirt and or jeans would be the best insulator because they are a much thicker material and there is less space for the molecules to move through. I might test my body surface temperature if I did this experiment again. I'm not sure if that is possible, but it would be fun to try!
I would set this up with some sort of food that the students eat everyday. Pizza maybe, and heat it up to a certain temperature in the beginning of class, have the students wrap it in different materials and in different sizes, or place it in different containers and have them hypothesize what the outcome would be. We could then get into a discussion about how the cafeteria keeps our food warm and the different ways that this could happen.
I would want students to understand that different materials will act better as insulators than others. By doing the experiment with the water in the mugs I was able to confirm why I place foil over food to keep it warm. It also got my brain thinking about the different types of clothing I wear according to the weather. I think that by having the students see the results of the pizza or food experiment they would be able to see that different materials are better suited for acting as an insulator than others.
I chose foil, plastic wrap, a shirt and a piece of paper to test as insulators. The heat energy in the water was moving through the air via radiation. These materials were being tested to see which one best slowed down that process. To my surprise, the shirt was the best insulator, however, it did become saturated with water that evaporated from the mug.
When I got this result I immediately starting thinking about different types of clothing and how they keep us warm. I would like to test out a sweatshirt, a t-shirt, a pair of jeans and a long sleeve shirt. I imagine that the sweatshirt and or jeans would be the best insulator because they are a much thicker material and there is less space for the molecules to move through. I might test my body surface temperature if I did this experiment again. I'm not sure if that is possible, but it would be fun to try!
I would set this up with some sort of food that the students eat everyday. Pizza maybe, and heat it up to a certain temperature in the beginning of class, have the students wrap it in different materials and in different sizes, or place it in different containers and have them hypothesize what the outcome would be. We could then get into a discussion about how the cafeteria keeps our food warm and the different ways that this could happen.
I would want students to understand that different materials will act better as insulators than others. By doing the experiment with the water in the mugs I was able to confirm why I place foil over food to keep it warm. It also got my brain thinking about the different types of clothing I wear according to the weather. I think that by having the students see the results of the pizza or food experiment they would be able to see that different materials are better suited for acting as an insulator than others.
Sunday, March 11, 2012
Watch Out For That..........!!!
This week I set up an inquiry lesson for myself to try out!! I wanted to try and answer the question "How does the steepness of a slope and mass affect a collision outcome?". Seeing that my last physics class was taken about 8 years ago I was fumbling around a bit until I settled on the design that I was happy with. Physics and I have never gotten along, apparently my brain thinks the exact opposite of physics concepts and that makes it hard for me to understand the concepts.
I set up my experiment as such: a small marble (7g) trial and a large marble(23g) trial. I tested three different slopes three different times. The more data I can collect will give me a more reliable answer. I placed a three composition notebooks on top of each other, and took a ruler to create the slope that the marble would travel down. At the bottom of the ruler was a toy car. I placed the marble at the same place on the ruler EVERY TIME to take out that variable. Once the collision had occurred, I measured the distance the car traveled and the overall disruptions of the car.
I saw a difference in the distance the car traveled and overall disturbance of the car in the large marble trials. The small marble did not do much damage, even when the slope was increased. I had expected to see changes in the collision with the large marble trials, but also expected to see a difference in the small marble trials. I was disappointed when that did not happen, but then I stepped back and started to think. The marbles were not traveling a long distance. Maybe next time I would increase the distance that the marbles traveled and that would give them more time to pick up more speed? I also have to keep in mind that the longer distance they travel, the more friction they would incur as well, which can slow down speed.
I would like to set this up in my classroom towards the end of the year. Since I teach Life Science it will be hard to fit it in before our "free teaching time" at the end of the year. I think many of my students will enjoy a hands on inquiry such as this, and I would have them graph their results and see if every group had the same outcome. This could lead into a great discussion of controls and variables. Actually, this might be a good way to introduce controls and variables in the beginning of the year, it is something that students continually struggle with and looking at it hands on would be a great way to help them understand!
I set up my experiment as such: a small marble (7g) trial and a large marble(23g) trial. I tested three different slopes three different times. The more data I can collect will give me a more reliable answer. I placed a three composition notebooks on top of each other, and took a ruler to create the slope that the marble would travel down. At the bottom of the ruler was a toy car. I placed the marble at the same place on the ruler EVERY TIME to take out that variable. Once the collision had occurred, I measured the distance the car traveled and the overall disruptions of the car.
I saw a difference in the distance the car traveled and overall disturbance of the car in the large marble trials. The small marble did not do much damage, even when the slope was increased. I had expected to see changes in the collision with the large marble trials, but also expected to see a difference in the small marble trials. I was disappointed when that did not happen, but then I stepped back and started to think. The marbles were not traveling a long distance. Maybe next time I would increase the distance that the marbles traveled and that would give them more time to pick up more speed? I also have to keep in mind that the longer distance they travel, the more friction they would incur as well, which can slow down speed.
I would like to set this up in my classroom towards the end of the year. Since I teach Life Science it will be hard to fit it in before our "free teaching time" at the end of the year. I think many of my students will enjoy a hands on inquiry such as this, and I would have them graph their results and see if every group had the same outcome. This could lead into a great discussion of controls and variables. Actually, this might be a good way to introduce controls and variables in the beginning of the year, it is something that students continually struggle with and looking at it hands on would be a great way to help them understand!
Sunday, February 12, 2012
Celery has strings?!
This week my students did not eat a piece of celery, but dissected it!! They were learning about vascular tissue and what job it has in a plant. Before the students "learned" anything from me, I had them explore a piece of celery with a guided inquiry activity. They seemed to pick up on the idea that the strings they saw inside of the celery contained water, because everytime they went to open more of the celery, water came from inside and ended up on the paper towel. By going around and asking them different questions, they figured out that if water was being moved through the tubes, then food or sugar must also be doing the same thing! When we started to explain what they were seeing, finding out that those strings were called vascular tubes and they had names was a cinch for them to understand! They had already seen them and had held them in their hands. It made their learning a million times easier!!
Sunday, January 22, 2012
Melting Icebergs
After completing the Melting Iceburgs experiment, it is very obvious that as the iceburgs melt there is the possibility of the oceans becoming too overloaded with water, causing rising waters on many shore areas. This can have a negative impact on many different aspects of our natural world.
One factor we must look at will be the temperature of our waters. Even though the ice is melting, it will be cooler than some of the water found in some oceans. As cooler water starts to fill the oceans, that will eventually move into other oceans. What impact will this have on our ecosystems found in different oceans? Will plants be able to survive a drop of 2-3 degrees in temperature? How will food chains and webs be affected? Also, will the melting occur so quickly that this will be an issue? Or because they are melting slowly will this not be a factor at all?
One factor we must look at will be the temperature of our waters. Even though the ice is melting, it will be cooler than some of the water found in some oceans. As cooler water starts to fill the oceans, that will eventually move into other oceans. What impact will this have on our ecosystems found in different oceans? Will plants be able to survive a drop of 2-3 degrees in temperature? How will food chains and webs be affected? Also, will the melting occur so quickly that this will be an issue? Or because they are melting slowly will this not be a factor at all?
Saturday, January 14, 2012
5 "E"mazing!!!!
Since October I have implemented the 5 E lesson plan strategy of instruction in my classroom as much as possible. I ABSOLUTELY love it!! I am no longer standing in the front of the room for 30 or 40 minutes lecturing my 7th graders. They are engrossed in mini projects, some that take a few days, some that take a class period. All in all, my students seem to be more engaged and are learning the material with more ease. I taught the unit on Genetics with this strategy and it was very effective.
I love getting away from a lecture based classroom. My students are asking more questions, they are turning into scientists!!! =)
I love getting away from a lecture based classroom. My students are asking more questions, they are turning into scientists!!! =)
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