Personally, I am NOT a big fan of roller coasters because it brings back memories such as this one...
It was a hot day during the summery break and me and my friends decided to take a trip to Toronto and visit Canada's Wonderland.(i went to elementary school in Ottawa, so like coming to Wonderland was a big deal)
We got up early and arrived at about 1 in the afternoon. We were so excited as we went on 6-7 coasters in a roll.
Before we know it, it was almost 4 and we were starving because none of us had lunch. So we decided to get lunch. As i remembered clearly, i had bought a fries supreme from NY fries. It turned out to be one of the worst decision i've made.
After i chowed down my fries, i decided to go right back to coaster riding as i was determined to not miss even one moment of this awesome funess. Before i knew it, my butt was on the seat of "The Bat" then everything went wrong...
As the ride was lifting off, i felt great, i was still chatting and waiting anxiously for it to accelerate. BUT after the ride was accelerating faster plus the twist and turning, i began to have this funny feeling in my stomach. After about the 4th turn, my face was completely pale and my stomach felt so bad that i can barely breathe! But i was determined to make it out of this ride, without causing a whole mess... i held back the vomiting. Then the ride flip me side ways, backwards, even upside down. By that point, my fries that i ate early were literally at my throat... HOWEVER, with A LOT of efforts, i managed to keep my fries at my throat. Finally the ride came to an end and i can see the enter and exit platform. i felt so relived and just when i thought i was going to make it, the coaster made a rather rash stop. As i leaned forward and as the seat belt compressed my stomach, brownish fluids exploded out of my mouth and even my nose. The next thing i remembered, i was sitting a bench not far from the ride with an angry,balding, middle aged man glaring down at me and trying to wipe his neck at the same time. At the end of the day, i had a lot of fun and i was also glad there weren't any lawsuits.
From that day on, I've never went on "The Bat" and i have never eaten New York fries. So that's my unique experience with roller coasters.
Tuesday, November 9, 2010
Physics behind rollercoasters
Generally, when people think of roller coasters, they think of a fun and exciting, vomit producing machine. But what many people don't realize is that there is also a wealth of Physics knowledge behind this functioning machine.
The first part of the roller coast normally involves work and energy. At the beginning of an average roller coaster ride, there will be mechanical forces such as a lift motor or a chain to help the roller coaster up a steep hill with little momentum. From there, gravity will take over.
On the top of the steep hill, the coaster processes a lot of potential energy. This potential energy is created by the mechanical forces which gave coaster the height and the weight of the coaster also contributes to the potential energy.
As the coaster moves down, potential energy turns into kinematic energies. The more the coaster accelerates the bigger values of kinematic energy is being presented and at the same time, the value of potential energy decreases and react inversely. As the ride continues, the train of cars are continuously losing and gaining height. Each gain in height corresponds to the loss of speed as kinetic energy is transformed into potential energy. Each loss in height corresponds to a gain of speed as potential energy is transformed into kinetic energy. AND that's how a roller coaster works.
The first part of the roller coast normally involves work and energy. At the beginning of an average roller coaster ride, there will be mechanical forces such as a lift motor or a chain to help the roller coaster up a steep hill with little momentum. From there, gravity will take over.
As the coaster moves down, potential energy turns into kinematic energies. The more the coaster accelerates the bigger values of kinematic energy is being presented and at the same time, the value of potential energy decreases and react inversely. As the ride continues, the train of cars are continuously losing and gaining height. Each gain in height corresponds to the loss of speed as kinetic energy is transformed into potential energy. Each loss in height corresponds to a gain of speed as potential energy is transformed into kinetic energy. AND that's how a roller coaster works.
Thursday, November 4, 2010
How to add vectors
Vectors, simply put, are values that have direction and a magnitude. Velocity, acceleration, and displacement also determines the value of the vector. The addition of vectors can be summarized into 5 steps.
1. First, determine each of the vector's direction. If it's moving eastwards or upwards, it has a positive and if it's moving west or downwards, it's negative. If a component has a negative sign (-), its magnitude is subtracted, rather than added.
2. Then, visualize or draw the diagram of the vectors and make it into a triangle.
5. Finally, find the direction the vector is going. The direction will always be from the point of the
2. Then, visualize or draw the diagram of the vectors and make it into a triangle.
3. Next, we use the Pythagorean theorem "a² + b² = c²" to calculate the unknown side.
4. After finding the length of the missing side, find the angle using the "SOHCANTOA" rule to find the angle. Most of the time in vectors, Tangent is used most frequently. The equation will be θ=tan-1(b/a), where θ is the angle that the resultant makes with the x-axis or the horizontal.
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