The economic principle I’m exploring is the difference between electric cars such as Tesla in comparison to another competing gas powered car. In this I will be reviewing the specific stats of a My research question to help me study the economic principle is Does the electric car out perform an ordinary gas powered competitor? The article/video/etc published in [name of publication] titled “..[name of article with link embedded here]...” demonstrates this economic principle by arguing/showing ….. , ……, and…...
First, we take a look at the performance aspect. From the line, also known as the acceleration, the Tesla in this car will accelerate faster than any other competitor in that class. Because the Tesla has a electric engine, it instantly responds when there is contact with the throttle. The gas powered car, however, takes off fast, but does not have an instant response, because of the engine it contains.
Second, for long distances, assuming the same class of cars are being raced, the gas powered car will most likely take if not tie with the Tesla. The reason for this is because after the engine gets more accustomed to the higher speeds, it is no different from the Tesla. By having a faster acceleration, however, can severely impact the race conditions.
Third, but certainly not least, is the handling. Like the high speeds, the handling is similar to same class competitors. As an example, the Tesla model T would be categorized in the same category as a M5 BMW. These sedans both have very good handling and maneuvering abilities. Comparing the Model X is a completely different story, however. The model X is one of voted the best handling suv/hatchback up to date. An example of a car in the same category would be a Porsche cayenne. Although it handles well, it still cannot compete with the ability of the Tesla Model X. In my next blog post I will research the question: How do the prices differ, and are these cars even worth it?
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