Friday, December 18, 2009

Will and Eric's Christmas Caroll

Santa Clause is Commin To Town!

You better pay attention
You better not sleep
Better use a ruler
I'm telling you why
Mrs. Gende will take off some points
She’s grading the tests
And checking them twice;
Gonna make her blush
When you use naked numbers
She’s grading the tests!
She sees you when you're slacking
She knows all the formulas
She knows if you have studied or not
So study for goodness sake!
O! You better listen in class
You better not sleep
Better have the blue sheet
I'm telling you why
Or else you will fail, your test.

Here are some equations
If you wana be successful
Better listen up
Im telling you now
This is the key to master physics
Better know these equations
To master your test
Maybe you’ll pass your exam
You better know how to draw a FBD
Or else you’ll fail this class.
So don’t forget to do the class work
Because it helps you ace your test!
O! You better listen in class
You better not sleep
Better have the blue sheet
I'm telling you why
Or else you will fail, your test.

Monday, December 7, 2009

Newton's First Law!!!!!

Part A

Q1- This is what i have learned about Newton's First Law. I have learned that all objects stay at rest when already at rest, and objects in motion stay in motion unless acted upon by a force. From this, i learned about all of the different forces and all the different ways they can act upon an object. I learned about translational equilibrium, how to draw FBDs, find the sum of the forces, and Inertia. Inertia is the resistance an object has to a change in its state of motion. I have learned many things in the section, and I hope to learn more!

Q2- What i have found difficult about what i have studied is being able to look at a problem and knowing exactly what i need to do in order to find the problem. Sometimes i find my self looking at a problem and getting too overwhelmed and giving up on the problem. I need to be able to look at a problem and take it step by step. In doing this, I will be able to solve the problems in a better, more efficient manner. I have also had a lot of trouble with finding the angle when it is not given. Sometimes i forget that we can use other methods we have learned in other classes to help us with our physics.

Q3- My problem solving skills are generally pretty good. As I said in the last question, i sometimes get stuck, overwhelmed, and go to fast. The problems we are doing require a lot of patience.  Once I get over that problem, I usually am able to take the problem step by step and solve the problem correctly. I think I am strong in trigonometry, and solving for the sum of the forces. My weakness is drawing FBDs. Sometimes i get confused when there is a lot of forces, and when the object is on a slanted ground.

Part B

Q1-  There are many situations in our everyday life in which things we have studied are happening. For example, car crashes. This is a great example of Newton's First Law.  This states that an object in motion usually stays in motion, and object at rest usually stay at rest, unless a force is acted upon them. Why do you thing wearing your seatbelt is a law? When you are in a car crash, usually you are in motion. When two cars collide, the cars stop due to force, but your body keeps its motion, which is why if you don't where your seat belt, you will fly through your windshield! If wearing your seat belt, the seat belt would be the force that stops you from continuing your motion.

Sunday, November 8, 2009

Friday, November 6, 2009






Dear Granny,

                I got your letter today, and I would be happy to explain displacement to you! Displacement is actually very simple. Displacement is how far an object ends up from the starting point. Let’s say you are running in a race, which is 300 m long, and the start and finish is at the same point. You get to the end of the race, and you are all excited because you just covered 300 m. Well, you actually had a displacement of 0 m. Since you started and ended at the same point, you really on covered a distance of 0 m. Displacement is defined as a vector quantity that represents the net length of travel, accounting for direction! You might have been getting confused on what the difference is between distance and displacement. In case you are, the distance of an object tells you nothing about the direction of the travel, while displacement tells you precisely how far and in what direction. There are many ways to find the displacement. One way is simply to find the difference of where you started and where you finished (∆X=X2-X1). In a graph, you can find the displacement if you find the area under a velocity (m/s) versus Time (s) graph. If you have any more questions on displacement, feel free to write me back and I would be more than happy to answer your questions!

Thursday, October 29, 2009


Get a Voki now!

Bloggin Fun

This was fun!