Physics Carol

So for extra credit, we can write and perform a "physics carol": a song about physics to the tune of a Christmas carol. I wrote mine to the tune of "Here Comes Santa Claus". It is called SOHCAHTOA.


If you have a right triangle that you need to solve
Use my formula and your problems will all be resolved.
It's so simple: SOHCAHTOA, it makes everything better.
With the time you have left over, you can knit a sweater.

You are probably wondering how you can use this
When you are trying to solve a problem in Physics.
In questions with vectors and net forces it can be of use.
Between your sanity and an 'A' you will not have to choose.

My Buddy Newton

We have just finished studying Newton's first three laws of motion. Overall I have enjoyed this unit and liked being able to draw more free body diagrams.

I learned that the first law states "An object at rest tends to stay at rest and an object in motion tends to stay in motion with the same speed and in the same direction unless acted upon by an unbalanced force." In other words, when the forces of an object are in equilibrium, the objects will keep doing what they're doing unless a force unbalances the object. The resistance of an object to change is called inertia. Basically, objects are pretty stubborn. Force is a vector quantity (magnitude and direction) that is measured in Newtons. I wish I could name something after myself. To solve equations, you add up all the forces in the Y and the X axis and solve for the unknown. Because the object is in equilibrium (not moving or velocity is constant), it's not to hard to solve for the unknown because the forces add to zero. Where I did have trouble is when the object is at an angle or on a ramp because I kept assuming that the force of gravity was still in the Y axis, instead of shifting the axis, which made the problems nearly impossible to do.

The third law states that when one object exerts a force on another object, the second object exerts on the first an equal force in the opposite direction. Every force (action force) has a reaction force. So, if you're standing on the ground, the ground is also pushing up on you. This concept wasn't difficult for me to understand.

The second law states that for a particular force, the acceleration of an object is proportional to the net force and inversely proportional to the mass of the object. In human-speak, the sum of the forces equals mass times acceleration. It wasn't too hard to plug in the numbers for that, but I was super confused until I realised that the forces were no longer in equilibrium, so I don't solve them the same way. Whichever direction has acceleration doesn't equal zero, it equals mass times acceleration. Once I understood this, I could solve the problems with ease.

Another difficulty in this unit was absence. I got the stomach flu for all last week and had to catch up, so this provided a disadvantage.

Overall, this unit was definitely not the most difficult to understand, though it still provided challenge. I enjoyed the unit a lot.

Vectors Unit Summary

We started out the unit learning about trigonometry. We used SOHCAHTOA to solve angles and sides in triangles. This was a review for me because I've already learned this in my math classes. Next we learned about vector components. I learned that you can find the two components (x and y) using R and cosine or sine. I think that I picked this up pretty easily, but I had trouble knowing when to subtract the angle from 180 based on the quadrant. Where I really struggled was when the vector was no longer at a right angle. It took me a long time to understand this. I had to rework a lot of the problems over and over again, but with the help of my classmates and the wonderful Mrs. Gende, I think I have a better grasp on the concept. Then, we learned about projectile motion. We learned that the horizontal velocity is constant and that the vertical velocity changes uniformly. I understood this pretty well, but again, when we stepped it up a level to projectile motion on an angle, all the formulas changed and I was confused all over again. Then, I figured out that they weren't really changing, it was just a different way of looking at them. Overall, I feel like I have a good grasp on this unit.
Learning about Projectile Motion isn't just important for class but for cheerleading too. In certain tosses, we need to know exactly where the flyer is going to land so we can catch her. Using projectile motion, we can figure this out.

Physics Man and Me

To wrap up the kinematics unit, our class was given three tasks. It would help us to summarize the unit and to introduce us to different technologies. We had to create an avatar, a tagxedo, and a pixton comic. A tagxedo is an image that uses words to create a picture. Our tagxedo was to use the terms from the unit to show off what we learned. Pixton is a really cool website with all sorts of tools for creating comics online. For our pixton comic, we had to pick one or two main topics from our unit to explain in a comic. I chose acceleration and used the scenario of a movie star stuck on an island, needing to get back home, to explain the concept. Overall, I am very proud of  my work for this project.

This is my tagxedo. It's in the shape of an apple.

This is my Pixton...Starring PHYSICS MAN!

How to Succeed in Physics

So I’ve come to the point in my high school career that I have to take Physics. My friends pity me and are constantly reminding me how hard Physics supposedly is. If I am going to survive this class, I am going to have to take a few steps to get there.  It is time I ask myself, “How can I succeed in Physics?”

1.     I will be on time to class and bring all of my supplies. I also give in to the fact that I will make mistakes and will need a pencil, no matter how much I hate pencils. Physics also requires a ruler and a calculator.

2.     I will pay attention and ask questions when I am confused. I will take notes in class so I can remember what we talked about and use those notes as a resource when completing my homework.

3.     I will not rush through readings but pay attention and take notes. It’s not about getting it done fast; it’s about getting it done well.

4.     I will use my resources (wiki, website, text) and strive to get every assignment in on time. I will write down all of my assignments in my planner, check them off when I am finished, and correct them using the class website.

5.     I will approach every problem with a strategy and show all of my work. According to the source the wonderful Mrs. Gende gave us, there are four steps to solve a problem. These steps are (1) Write down data and unknown. Convert units. Basically get organized to solve the problem. (2) Write down the equation necessary and solve for unknowns. (3) Substitute values into the equation. (4) CHECK YOUR WORK. This step is especially important for me because I make careless errors all the time! On my last quiz I made a conversion with 1 m = 1000 Km...whoops!

6.     I will keep my notes and handouts neatly organized in my binder. That way, when test time comes, I'll know where everything I need to study is.

Hopefully, with these guidelines, I can approach physics prepared, with a positive attitude, and maybe prove my friends wrong about how hard it is.

Source: Tips For Physics Sucess