sad sad day

Tomorrow is the last test that we'll have for AP physics B. This year has been loads of fun. Hanging out in Doc's room during frees, eating Doc's food, complaining about the endless supply of quizzes. Yup. Well, one thing I'm thankful for today, besides my mom of course, is the great preparation that Doc and this course have given me. I woke up today thinking about what to study and realized that all the tests we've taken, all the quizzes, and even our final exam have already helped me prepare in so many ways. If we didn't practice taking those past AP exam questions, I would be in a very bad situation right now. Of course there are still many MANY things that I do not understand and must study, but thanks to Doc he has made this weekend a lot less stressful than it could have been. My final physics blog topic is a difficult one to come up with, so I just want to talk about what kind of role physics plays in our lives. Chem and Bio were definitely fun courses, but to me, they felt a bit too abstract. Physics definitely felt more "real" to me, and as I learned more about it, I realized just how much physics there is around me. There is physics when I ride in a car, when I walk on the street, when I open a can of soda. There's physics all around the world, physics in space, and physics in things such as sound and light. Overall, physics just plays such a large role in my life, and probably in any life, that I can't imagine anyone not studying such an important subject. So good luck to everyone on the AP exam tomorrow.

http://youtube.com/watch?v=cIIwwCi2zwk

angles

Well today when i was on the tennis court and missing a lot of my volleys, i thought, "hmm, what does I need to do in order for the ball i hit to go where i want it to go." Then it occurred to me that the ball and racket could be thought of as a ray and a mirror. Physics teaches us that the incident angle is equal to the reflected angle when a light ray is shone on a mirror. Therefore if I just placed my racket's face so that the reflected angle would go in the intended direction, then my shots would be more accurate. This also leads us to the topic of refraction and indexes. Using snell's law nsintheta=nsintheta, we can determine the angle of reflection when a ray travels through two mediums that have different indexes of refraction, such as air and water, or air and glass.

physics

As I was driving home from my tennis match this weekend, a strange phenomenon occurred in my back seat. My water bottle began making a weird noise, and it sounded as if air was trying to escape from it. In a sense, that is kind of what was going on. I thought about why the noise was being made, and it occurred to me that, with the use of my physics knowledge of fluid mechanics, that as I was driving up the mountain, the atmospheric pressure was decreasing. However, the air inside my water bottle was still at the ground level's atmospheric pressure. Therefore, there was a greater pressure inside my water bottle than outside, causing the air from inside to flow out. This can even be expressed in bernoulli's equation. As I go up the mountain, my PE goes up, meaning that air pressure at higher elevations must be lower than air pressure at ground level.

How in the world do boats float?

Going to pearl harbor was a pretty fun experience, though it would have been more fun if it wasn't so hot and muggy. Anyways, the field trip was exciting because we got to ride on a boat and look inside submarines. While I was on the boat, I thought to myself, "Wow, there are a lot of people on this boat. How come this boat doesn't sink?" Then it hit me again. Buoyant force was the answer, something we recently reviewed in our packets. Buoyant force is the force that pushes up on a ship and is equal to the weight of the water displaced. Therefore, as long as the boat displaces enough water to counter the weight of the ship and its passengers, the boat will not sink. Once again, it is amazing how physics is hidden in almost every aspect of our lives, and how it makes our lives more convenient

DRIVING

So I got my permit a few weeks ago and have already gone driving many times. In my few hours on the road I have already experienced many of the dangers that I was taught to avoid. To be a good driver on the highway, one must be able to estimate the acceleration of the car (positive or negative), otherwise an accident could possibly occur. One time while driving on the highway at about 40 mph, I did not judge the speed of the car in front of me well enough, causing my mom to yell "stop! stop!". I quickly hit the brake, but realized that I needed to apply even more stopping power to be sure I would not hit the car. The car came to a sudden stop, and that's when it hit me (no not the car behind me). If i drew acceleration graphs of my car on the highway, or any car, it would basically be a series of intervals that show positive acceleration, negative acceleration, then stopping (when you come to a red light), then a repeat of those intervals. Driving has been tons of fun, and hopefully as I gain more experience I'll become a better driver.

OMG you've got to be joking

Okay so i was browsing the internet searching for a physics blog topic when i came across this video of a korean man shooting an arrow with incredible accuracy. Now i don't know if it was luck or if he is just a really good archer, but it doesn't matter because the video is still awesome. So when looking at the path of the arrow, a lot of physics comes into play. The arrow leaves the bow with a high velocity directed parallel at the ground, but due to gravity, the arrow will start to be pulled towards the earth, the longer it is in flight. The archer has to account for this effect and has to adjust his shot in order to get maximum accuracy. The arrow needs to be perfectly centered in order for it to go inside the tube. Even friction comes into play, between the bow and the arrow, and the tube and the arrow. Pretty much, this video is a good way to waste 3 minutes if you've got nothing better to do besides study for physics.

MIRAGE QUIZ/BLOG

So basically, the mirage device is basically made of two concave mirrors with each other's focal points in the center of the other mirror. So if an object, like a strawberry for example, is placed in the center of the bottom concave mirror(which is the focus), light rays bouncing off the strawberry will hit the top concave mirror and then bounce off parallel to the axis. These parallel light rays then bounce off the bottom mirror, and when parallel rays bounce off a concave mirror they all intersect at the focal point, which is at the top of the mirage device. Therefore this device produces a "mirage" at the top due to the use of physics, mirrors, and focal points. What goal does this accomplish? You can trick your friends out by putting money inside the mirage device and leaving it on a table.