I. Intro
By using a mousetrap as a single power generator, students had to build a car that can go at least five meters.
II. Hypothesis
As the force is proportional to the mass and acceleration, the heavier a car is, the slower and lesser the car will go.
III. Project
Daniel and Armoni met few times at evenings in each other's houses for average two hours. At sunday, we built the basic design. At monday, we checked that we had some technical difficulties to carry out the design. Thus, we decided to use last year's leftovers instead. It turned out that the last year's one was too heavy. The body's conjuncture point with the wheels also had so much friction as well. At last day, we finally figured out how to use the last year's one.
IV. Success and Failures
The car was relatively light, so it went all it could go in a few quick seconds. The technique we used to move the car caused so much friction in the axis of the wheel that we assume we lost much power. After tying the string in the axis, we put it in the base of a car that has a hole for the string to come out. When we actually used it, the string had to have the force enough to turn the axis as well as to move the axis enough for the string to be in line with the hole.
V. Discoveries
.We found out that the wheels had to have certain amount of friction to flowly go on a surface. We discovered that the stick that we used is better off when it's long because of basic principles of torc power. However, the length had to be enough for the stick not to break off. The wheel, in the same way as the stick, is better off when it is large. However, it can't be too heavy.
VI. Laws
F=ma
Torque=Fr
Friction= coefficent of friction * Normal force
VII. Conclusion
The lighter, the faster. However, it doesn't always mean the longer because the car has cerain efficiency in using power.
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