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- May 17, 2010
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Hello everyone,
Q: Two cars, a Chevette and an Aries, where travelling at 25 m/s and 31 m/s, respectively. The Chevette will travel 12.5m in time(c) and the Aries will travel 12.5m in time(a). Assuming their velocities are constant, what is the ratio of time(a) to time(c)?
A) 31:25
B) 1:1
C) 25:31
D) 15.5:2
The answer is C.
Now I have boiled the answer down to choices A and C. What I don't get it why it is answer C over answer A. I can think of it logically that the Aries which travels faster will be able to travel 12.5m in less time, thus answer C makes sense. The question I am asking you all is: How do you prove that mathematically?
Thanks,
Lunasly.
Q: Two cars, a Chevette and an Aries, where travelling at 25 m/s and 31 m/s, respectively. The Chevette will travel 12.5m in time(c) and the Aries will travel 12.5m in time(a). Assuming their velocities are constant, what is the ratio of time(a) to time(c)?
A) 31:25
B) 1:1
C) 25:31
D) 15.5:2
The answer is C.
Now I have boiled the answer down to choices A and C. What I don't get it why it is answer C over answer A. I can think of it logically that the Aries which travels faster will be able to travel 12.5m in less time, thus answer C makes sense. The question I am asking you all is: How do you prove that mathematically?
Thanks,
Lunasly.
