Monday, November 29, 2010
Josh C blog 11/29
We all worked on the bar chart packets. You should be able to read a problem and know how to make a proper bar chart representing that problem. make sure you label properly and know how to read it. in the packet, the K stands for Kinetic energy, the Ug stands for Gravitational Potential energy, the Us stands for Elastic Potential energy, the i stands for initial state, the f stands for final state, and the W stands for work. Making bar charts is an easy way to show a problem and understand it better.
Sunday, November 28, 2010
November 28th, 2010 Working On Bar Charts
On Wednesday in class, we continued working on our real-life situation money, energy, and food bar chart packets. For each of the questions in the packets we had to come up with a bar chart that shows the initial state, a process, and a final state. These bar charts helped us to see what was going on over time and to compare initial and final states of the situation.
In my case, Yolanda, Yuji, Katie, and I were working on the energy packet. So our first question had to do with a girl on an elevator. She was on the bottom floor, she stepped inside the elevator and went up to the fourth floor. For this question my group had to draw a bar chart that had the initial energy, the process/work, and the final state. So our initial state was the energy that the elevator had on the bottom floor, which was zero jewels. Our process/work was the elevator going upwards. This involved an increase in both kinetic and gravitational potential energy. For the final states we had to include the increase in both types of energy. That's all there is to a bar chart.
The one area that I got tripped up on is the process portion of the chart. After working through the packet, I realized that the process is really just the work being done. Also, you don't have to include all of the types of energy, just the type that you're using because I included every type of energy we learned about when I only needed 2.
KS
Tuesday, November 23, 2010
November 23, 2010 - Raising the Bar
Today we were working on a packet entitled "Lesson 4: Raising the Bar". In this packet, it contained bar graphs dealing with real life problems, with money. "We can use charts to represent data by showing things happening over time, comparing, and contrasting.
But the idea is that the 'money' is doing work. There is an initial state, and a final state. For example, look at the graph at the top.
It show that there is a change in the initial and final. Compare this to being work; there can be positive or negative work. If the amount of money you're spending/taking away, that would be the 'negative work'. If the amount of money you're earning, that would be the 'positive work'. By showing the initial and final states, you put the before chart next to the after chart.
Now, think about how this is like doing work. Leave a comment if you want on how I can improve or what not, thans :]
CP
Monday, November 22, 2010
Monday, November 22, 2010
Today in class the first thing we did was switch seats. Then we split up into the Advanced and Regular track groups. The Advanced track went over the homework from a couple nights ago with the elevator problems. We discussed the answers to the problems. Most of them involved using the Work = Force * Displacement equation. Finley also told us that the displacement has to always be measured using the metric system. While we were doing this the Regular track was doing bar chart equations. After the Advanced track finished going over the homework we joined the Regular track and started to work on some of the Bar Chart questions.
Some of the questions we had to answer were how are Bar Charts used and my group said that they can easy represent data and clearly see the results. Another question was what does it show and we said it showed in our case money being transferred from one account to the other. The rest of the packet was pretty much just making Bar Charts. Here is a picture of what a bar chart looks like:
Some of the questions we had to answer were how are Bar Charts used and my group said that they can easy represent data and clearly see the results. Another question was what does it show and we said it showed in our case money being transferred from one account to the other. The rest of the packet was pretty much just making Bar Charts. Here is a picture of what a bar chart looks like:
Friday, November 19, 2010
None
No blog today, calendar pushed back a day. Took a "POP" quiz today. From now on, you can't correct questions that you left blank on your quizzes.
DB
DB
Thursday, November 18, 2010
Procceses
In class today, we discussed a process. Ex. $35 -> spend-> $25. Mr. Finley showed what a process was with money. He had $10 in his wallet, $20 on a gift card, and $5 in a hole in a ground. Also, he showed us how we can represent a process with a bar graph. Next, Mr. Finley checked our homework.
Our homework was to draw the initial and final state of someone lifting a box from the ground onto a table. He said that we should draw the very beginning and the very end for the initial and final state. When the box is on the ground, it has no energy. When it is on the table, the box has some energy. For the third part, the transformation was positive work to gravitational potential energy. For part D, Eugenia has to apply negative work to put the box on the table.
Next, we did a packet in our groups. The first question was, "How can we use charts to represent data?" My group's answer was that we can graph the data on the chart. The next question was to create a graph that shows you have $20 on a gift card, $0 in your pocket, and $60 in your bank account. Next, we had to graph if we take $20 out of the bank and put it in our pocket.
POP QUIZ TOMORROW!!!!!!!!
TR
Tuesday, November 16, 2010
Mechanical Energies November 16, 2010
In class, we were given whiteboards a
nd told to write the systems for the following situations:
1. A person is being dragged across a rug.
2. A hot air balloon rising up into the air.
3. Someone bouncing on a pogo stick.
4. A car going faster and faster.
The answers we came up with in our class discussion we
re:
#1 the system was the earth, person being dragged, and the rug.
#2 the system was the earth, hot air balloon.
#3 the system was the pogo stick.
#4 the system was the car.
Next we had to find the equation for work and what the negative signs means using the table
The equation is force * displacement = work
The negative sign means that you are applying a lot of opposite force.
After we did this we compared answers with two other groups. Our answers all agreed with each other.
Then we had to fill in this table.
Today in class I learned much more about systems because that was a topic that was a little confusing for me. I hope this blog helped teach you more about systems and mechanical energies.
-JM
Friday, November 12, 2010
November 12 2010 Period 2
First, in class we discussed on homework. We were given white boards. Each table was assigned a problem from the homework. Here is what we discussed in class.
The text in Red is the work done to the system
Group A- Someone Lifts Up a book- 10j+20j=30j
Group B-Pushing A Lawn Mower- 0j+5j=5j
Group C-A person Goes Bungy Jumping- 5j+20j= 25j
Group D-A car speeding down then going up a small ramp. Then it flies in the air- 40j+20j=60j
Finley-A person bouncing on a trampoline- 20j=20j No work
Group G- A rock climber starts falling down and his hands burn on the rope. 20j=20j No work
That took up all of class. A good link that I found to help. Use it if you are unclear about something
I hope the Blog helped.
ZK
The text in Red is the work done to the system
Group A- Someone Lifts Up a book- 10j+20j=30j
Group B-Pushing A Lawn Mower- 0j+5j=5j
Group C-A person Goes Bungy Jumping- 5j+20j= 25j
Group D-A car speeding down then going up a small ramp. Then it flies in the air- 40j+20j=60j
Finley-A person bouncing on a trampoline- 20j=20j No work
Group G- A rock climber starts falling down and his hands burn on the rope. 20j=20j No work
That took up all of class. A good link that I found to help. Use it if you are unclear about something
I hope the Blog helped.
ZK
Thursday, November 11, 2010
Today at the beggining of class, Finley asked us to get out our homework from monday and soon proceded to ask us what we thought Potential Energy was. After talking in our groups, Finley asked us what potential meant and the answer was when someone or something has the power to do something. We then went back to our chalk smashing ability experiment and said when I lifted the book I gave it potential energy. We then started on a summary and then proceeded to answer questions about postive work process. After we went on to share our answers. The type of energy we would get is Internal Energy because of friction. We concluded that if the surface that the crate was dragged on no friction being created so to creat energy we need the surface. A good link is
http://jersey.uoregon.edu/vlab/PotentialEnergy/
http://jersey.uoregon.edu/vlab/PotentialEnergy/
Monday, November 8, 2010
Monday, November 08, 2010
First, our tables created a whiteboard filled with information on Energy.
One of the concepts Mr. Finley reminded us about was that, "Energy cannot be created, energy can only be transferred."
Types of Energy
Mechanical Energy- ex. chalk smashing ability or CSA
Light Energy- see information from the light unit
Chemical Energy- ex. Battery
Electric Energy- Electricity
Nuclear Energy
Changes In Energy
Lamp- Electric Energy to Light Energy
Battery, wire, and light bulb- Chemical Energy to Electric Energy to Light Energy
Our Main Focus On Energy This Unit: MECHANICAL ENERGY
Why was today's class important? Any confusion with anything? Advice?
The first important thing we did was review. Reviewing is very important. It helps us remember concepts that we may have forgotten in the past. It also helps clear up any confusion anyone may have concerning any topic.
Then, Mr. Finley talked about types of energy. This helped us understand what types of energy there were. He also said we would be focusing on Mechanical Energy. This would help us understand what we are learning.
Lastly, Mr. Finley told us to think of some situations where energy changes. This was important because it helped us understand that there are many situations when there are changes in the type of energy. The ones listed above are only a few very simple ones. Below are a few more.
One of the concepts Mr. Finley reminded us about was that, "Energy cannot be created, energy can only be transferred."
Types of Energy
Mechanical Energy- ex. chalk smashing ability or CSA
Light Energy- see information from the light unit
Chemical Energy- ex. Battery
Electric Energy- Electricity
Nuclear Energy
Changes In Energy
Lamp- Electric Energy to Light Energy
Battery, wire, and light bulb- Chemical Energy to Electric Energy to Light Energy
Our Main Focus On Energy This Unit: MECHANICAL ENERGY
Why was today's class important? Any confusion with anything? Advice?
The first important thing we did was review. Reviewing is very important. It helps us remember concepts that we may have forgotten in the past. It also helps clear up any confusion anyone may have concerning any topic.
Then, Mr. Finley talked about types of energy. This helped us understand what types of energy there were. He also said we would be focusing on Mechanical Energy. This would help us understand what we are learning.
Lastly, Mr. Finley told us to think of some situations where energy changes. This was important because it helped us understand that there are many situations when there are changes in the type of energy. The ones listed above are only a few very simple ones. Below are a few more.
-YZ
Wednesday, November 3, 2010
November 3, 2010
First, Finley checked our homework. He went around as usual to make sure everyone did it. Then, he called up four people to go up on the board and draw what they got.
1) 0J + 20J = 20J
2) 0J + 50J = 50J
3) 40J + -40J = 0J
4) 5J = 5J
1) 0J + 20J = 20J
2) 0J + 50J = 50J
3) 40J + -40J = 0J
4) 5J = 5J
Then we played a review game to review for the test.
Tuesday, November 2, 2010
Chalk Smashing Ability
We first reviewed from yesterday. We discussed that we needed a push or pull in other words a force. We also said that the directoin of the force and displacement had to be going in the same direction to have CSA (chalf smashing abilities).
Why does it matter to talk about both diplacement and force?
We said that it was both important because even if we give some things force it may not be able to be diplaced.
Ex. Yuji tried to push the table fixed to the ground. It didn't move and couldn't get CSA
Finley then forced the dictionary up but he diplaced the object sideways. The dictionary did not get CSA.
We then disucussed what happened with me pushing the desk and Finley displacing and forcing in a different direction.
For me pushing the table I couldn't diplace it because it was fixed to the floor. For the dictionary going in different directions the force and displacement was going in different ways so the dictionary could not get CSA.
We then experimented with this theory. We had Hleb as the chalk smashing machine and Daphnie was part of the Chalk Liberation Movement. Hleb pushed the cart at the chalk and Daphnie pushed the opposite direction to save it.
Here is the results
Hleb: 10 units of CSA
Daphne:-10 units of CSA
Daphne + Hleb: 0 units of CSA
So expressed as a number sentence 10-10=0
Yay! Daphnie saved the chalk!
We then did this again with Finley and Hleb and this time because Finley did not push as hard to stop the displacement the cart still got CSA. We now had to revisit the first hypothesis that force and displacement had to go the same way for a object to got CSA.
This is what we came up with.
New Hypothesis: When the force and displacement is going the same direction increases the CSA. When the displacement and force are going opposite directions the CSA decreases.
Finley then gave us another puzzling question.
Where did the CSA come from?
Finley then gave us another puzzling question.
Where did the CSA come from?
A good guess was that it came living things. This was disproved when Finley pushed a cart into another cart and gave it CSA. The cart had given the cart CSA.
We concluded that it came from a external source of energy.
We then defined work.
Work- when we transfer energy to or from another object or system.
We can either do positive or negative work on the system.
Ex. Daphnie did negative work to the cart when it was trying to gain CSA.
We then discussed what was initial state and final state.
Initial state: where it started
Final state: where it ended up after the work
Ex. Finley lifts book
Initial state: Sitting on table
Final state: In the air in Finley's hand
We now set about to try to show how much energy the book had and got after it was lifted.
We said that the book already had 10 units of energy. After it was picked up it had 30 units of energy. Finley had to do 20 units of work in order to achieve this.
HW: Look on Finley's website
YS
Monday, November 1, 2010
its NOVEMBER!!!!! wow! (chalk smashing experiments)
11/1/10
As always, we checked the homework from over the weekend. Homework from October 27 to now. we were going to play a review game, but our questions were not to good. we weren't as creative as he wanted us to be. so, no review game.
we started talking about why we see a rainbow in white light. the speeds of the light are different. the ones that bent the most will be moving the slowest. the wave length would be the smallest.
why doesn't this happen with lasers? it is ONE focused wave length.
where else do we see this happening? rain... a rainbow... the light goes through a refracts at an angle off the humidity in the air. that creates a rainbow.
any questions about the dissection on Friday? Kevin- what was the blob jello stuff... answer-fluid that refracts the light.
ELECTRO MAGNETISM
forms of energy- x rays, microwaves...
Conner volunteered to pick up a dictionary and smash the piece of chalk on it. he put the book higher and dropped it onto the piece of chalk.. it got crushed...
displacement- moved, changed position by some amount
what is the direction that the book was placed in order to smash the chalk.. the book went up... Conner's force was up... so our displacement was up and the force of Conner was up. so as a result the book gained chalk smashing ability.
we did another observation
now we want to give the cart chalk smashing ability. chalk is now taped to the wall and molly has to push the cart towards the wall. and try to smash the chalk.
try 1- the wheels stick out too far and the cart cant touch the chalk.. now we have an assumption that we have to work through.
try 2- we taped the chalk to a brick taped to the door and molly tried it again and it worked.. the cart has smashing ability
(force = push or pull)
the bell rang and as usual we are late trying to finish up our class hopefully tomorrow we will try to finish up our experiments on the force and chalk smashing. - G.P.
As always, we checked the homework from over the weekend. Homework from October 27 to now. we were going to play a review game, but our questions were not to good. we weren't as creative as he wanted us to be. so, no review game.
we started talking about why we see a rainbow in white light. the speeds of the light are different. the ones that bent the most will be moving the slowest. the wave length would be the smallest.
why doesn't this happen with lasers? it is ONE focused wave length.
where else do we see this happening? rain... a rainbow... the light goes through a refracts at an angle off the humidity in the air. that creates a rainbow.
any questions about the dissection on Friday? Kevin- what was the blob jello stuff... answer-fluid that refracts the light.
ELECTRO MAGNETISM
forms of energy- x rays, microwaves...
Conner volunteered to pick up a dictionary and smash the piece of chalk on it. he put the book higher and dropped it onto the piece of chalk.. it got crushed...
displacement- moved, changed position by some amount
what is the direction that the book was placed in order to smash the chalk.. the book went up... Conner's force was up... so our displacement was up and the force of Conner was up. so as a result the book gained chalk smashing ability.
we did another observation
now we want to give the cart chalk smashing ability. chalk is now taped to the wall and molly has to push the cart towards the wall. and try to smash the chalk.
try 1- the wheels stick out too far and the cart cant touch the chalk.. now we have an assumption that we have to work through.
try 2- we taped the chalk to a brick taped to the door and molly tried it again and it worked.. the cart has smashing ability
(force = push or pull)
the bell rang and as usual we are late trying to finish up our class hopefully tomorrow we will try to finish up our experiments on the force and chalk smashing. - G.P.
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