Solved

Suppose the Position Function for a Free-Falling Object on a Certain

Question 9

Multiple Choice

Suppose the position function for a free-falling object on a certain planet is given by Suppose the position function for a free-falling object on a certain planet is given by . A silver coin is dropped from the top of a building that is 1370 feet tall. Find velocity of the coin at impact. Round your answer to the three decimal places. A) -286.705 ft/sec B) -138.492 ft/sec C) -111.041 ft/sec D) -276.984 ft/sec E) -261.984 ft/sec . A silver coin is dropped from the top of a building that is 1370 feet tall. Find velocity of the coin at impact. Round your answer to the three decimal places.


A) -286.705 ft/sec
B) -138.492 ft/sec
C) -111.041 ft/sec
D) -276.984 ft/sec
E) -261.984 ft/sec

Correct Answer:

verifed

Verified

Unlock this answer now
Get Access to more Verified Answers free of charge

Related Questions

Q4: Find the derivative of the function. <img

Q5: A ball is thrown straight down from

Q6: Find the slope of the graph of

Q7: Suppose the position function for a free-falling

Q8: Find the slope-intercept equation of the line

Q10: Use the rules of differentiation to find

Q11: Suppose the position function for a free-falling

Q12: Suppose the position function for a free-falling

Q13: Find the slope of the graph of

Q14: A projectile is shot upwards from the