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Find the distance, in meters, a particle travels in its first 10 seconds of travel, if it moves according to the velocity equation v(t)= 49 - 9.8t (in meters/sec).
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Find the distance, in meters, a particle travels in its first 10 seconds of travel, if it moves according to the velocity equation v(t)= 49 - 9.8t (in meters/sec).

User Yahel
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2 Answers

5 votes

Answer:

245

Explanation:

User Gebezs
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5 votes

Answer: 245 meters

Explanation:

Use definite integral to find the position value. Since the derivative of a position function gives you the velocity function, the antiderivative (the integral) should get you the position function from a velocity function. The absolute value is there to prevent any negative values from coming, as can't be a negative distance.


\int\ \, dx gives you


4.9*(x-5)*|x-5|

Evaluate the function at the limits.

doing so gives 245 meters

Find the distance, in meters, a particle travels in its first 10 seconds of travel-example-1
User Ranjithkumar T
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