Disneyland is one of my all time favorite places in the world. No matter how many times I go, I always want a chance to go back. Like my mom, I love how Disney can make dreams and magic a reality. Especially thorugh their shows. One of my favorite parts aside from the rides and the good food and the Disney parks is their shows. They always do an amazing job with their various shows ranging from musicals, parades, fireworks, and watershows. The next show on my list to see is the World of Color which is a water/light show at Disney's California Adventure Park. One way Disney used created this watery light display was with the use of fiber optics to make the streams of water shooting in the air change color. The water looks like it is changing color because the colored lights are internally reflected inside the streams of lights, traveling along the stream of water without reflecting out, which is why the light will bend with the water instead of refracting out of the water. The result, is a beautiful, color, display that is fun to see for all the ages.
Physics Blog
Monday, May 9, 2011
Wednesday, April 20, 2011
Blog 11: Xylophone Fun
Although we may not realize it, even as little kids, physics was something we played with on an everyday basis. This toy xylophone, for example, is a perfect display of sound waves. When we hit the longer bars of metal on the red end of the xylophone, we hear a lower noise and when we hit the shorter bars on the purple side of the xylophone, we hear higher pitched sounds. We hear different pitched noises by hitting the different lengths of bars on the xylophone because the frequency of the waves from each bar is different. The pitches for the longer bars are lower because they have a slower frequency than the shorter bars that have a higher frequency and, therefore, a higher pitch. So even though as children we do not realize it, as we pounded on the colorful bars of the xylophone, or the lacquered keys of a piano, we can hear the different sounds coming from each instrument because of the different sound waves that are produced.
Monday, March 14, 2011
Blog 10!: Jello Box Generator
As soon as Mrs. Chen introduced electromagnetic induction in class I couldn't wait to write my blog. I finally had a perfect idea for it! Immediately I thought of my jello box generator that I built in elementary school.
For once it was a good thing that I kept one of my old science fair projects. To make this "generator" I cut a square in a normal jello box so that you can see the magnet spinning inside. A nail going through the box holds the magnet in place and connects into the hand crank which turns the magnet. And wrapped around the whole box is a coil of wire.
When the magnet spins, the angle of the of the magnetic field with respect to the the coil is constantly changing, causing a voltage to be induced in the wire, therefore, causing an induced current. The light flickers because as the magnet is flipped 180 degrees as it turns, the poles of the magnet reverse, making the current also flip back and forth, making the current of the circuit an alternating current.
Sunday, February 27, 2011
Blog 9: UFO Ball
From third to fifth grade, every year I went to an annual "space camp" called Future Flight Hawaii. Although a lot of my friends think it's funny that I went to a space camp, it was still one of the vest experiences of my life. Every year I came home with fun and interesting toys that was related to the things we learned at camp. One of the things I brought home was this UFO ball. Like the chicken Mrs. Chen used in class, this ball only lights up when you touch both metal strips at the same time. This is because to have a current, you need two things, 1) a voltage difference and 2) a connected path. The battery provides that voltage difference and touching both of the metal strips, which are conductors, provides the connective path for the current to flow through you and then the ball. That is why when you take of either one of your fingers, the ball will stop flashing and making noise.
Blog 8: Static
Since my brother was on playing COD on the TV downstairs for hours already, I decided to watch a DVD on my grandma's old TV that we had upstairs. It is a lot smaller than the one currently being fried by the continuous Call of Duty tweaking but it would do for watching a short movie. When I turned on the TV I noticed that the arms of my hair were attracted to the TV screen (I put my head near the TV so that you can see the attraction better). I immediately thought of how a balloon, when rubbed across someones head will also make one's hair stand up due to static electricity. Because I did not know the reason behind this attraction, I used Google to discover that the screen is bombarded with electrically charged particles. It makes sense now that your arms hairs, which are neutral, are attracted to the charged screen because the screen is trying to go back to neutral by giving off its electrons to your arm hairs.
Sunday, January 9, 2011
Blog 7: Mind Reliever?
So as I am sure everyone was aware of, this weekend was the weekend before finals. What does that mean? Well, for me that usually means trying to get as much information into my head again (and this time retain it for a while longer) before getting swept up with all the other things that happens during school. Unfortunately, I can only go on to study for only so many hours at a time. Eventually I have to give my head a rest in order to start shoving more things back into my head. And what's the best way to mindlessly do something? By looking at a fan! Unfortunately for my brain, I saw that blades of the fan had torque which is the force times the radius, in this case the length of the blades. The fan while spinning also had moment of inertia which is the mass x radius squared. Also, when I turned on the fan, it had angular acceleration which is equal to the net torque over the moment of inertia. So much for a mindless activity.
Sunday, December 12, 2010
Blog 6: A Simple Compromise
My dad got particularly excited about this blog as I finally asked him for an idea. He quickly thought of ideas that were, although easy to do, way too complicated for me to comprehend. That still did not stop him from shooting down my more simple and "fun" idea. My idea was to grab the small step ladder we have in the kitchen, put a stuffed animal or something on one of the blades, and steadily increase the speed of the fan. But, with more concern for the ceiling fan than the entertainment factor of doing a physics blog, my dad came up with a satisfiable compromise. In this set up, my dad screwed a paper plate on to one of his power drills. I placed a nickle on the platem started the drill slowly then started to turn up the speed. Soon after increasing the speed, the nickle flew off the plate. I now know that because the nickel's centripetal force, in this case it's friction, was not strong enough to keep it in it's circular path, it flew away from the center of the rotation on a tangent.
Angled Ramp (turn before tunnel on Likelike Hwy)
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