my notes from my teacher for these types of questions are not helpful at all. every time i think i know what to do and i get an aswer, i am wrong. i will type the questions first and then show what i tried.
For the following questions, use the position function s(t) = -16t^2 + v(subscript 0)t + s(subscript0) for free-falling objects.
note: v(subscript 0)t should mean initial velocity and s(subscript0) would be initial height according to my teacher's notes
1. A silver dollar is dropped from the top of a building that is 1362 feet tall
(A) determine the position and velocity functions for the coin.
my work: based on the notes i thought the functions would be v(t) = -16t^2 and s(t)= -16t^2 + 1362
(B) determine the average velocity on the interval [1,2]
my work: i got the avg velocity to be -48 ft/sec because i plugged in the interval points and did [s(2)-s(1)]/[2-1]?
(C) find the instantaneous velocities when t=1 and t=2
my work: at t=1, -32 ft/sec and at t=2, -64 ft/sec
(D) find the time required for the coin to reach ground level
my work: i didnt know how to set up the equation
(E) find the velocity of the coin at impact
my work: again im not sure how to write the equation:
2. A ball is thrown straight down from the top of a 220ft building with an initial velocity of -22ft per/sec. What is its velocity after 3 seconds? After falling 108 feet?
my work: once more im not sure how to write the equation but this is what i tried:
-16t^2 - 22t + 220, then i plugged in 3 for t and got 10. and i had no idea how to do the second part
For the following questions, use the position function s(t) = -16t^2 + v(subscript 0)t + s(subscript0) for free-falling objects.
note: v(subscript 0)t should mean initial velocity and s(subscript0) would be initial height according to my teacher's notes
1. A silver dollar is dropped from the top of a building that is 1362 feet tall
(A) determine the position and velocity functions for the coin.
my work: based on the notes i thought the functions would be v(t) = -16t^2 and s(t)= -16t^2 + 1362
(B) determine the average velocity on the interval [1,2]
my work: i got the avg velocity to be -48 ft/sec because i plugged in the interval points and did [s(2)-s(1)]/[2-1]?
(C) find the instantaneous velocities when t=1 and t=2
my work: at t=1, -32 ft/sec and at t=2, -64 ft/sec
(D) find the time required for the coin to reach ground level
my work: i didnt know how to set up the equation
(E) find the velocity of the coin at impact
my work: again im not sure how to write the equation:
2. A ball is thrown straight down from the top of a 220ft building with an initial velocity of -22ft per/sec. What is its velocity after 3 seconds? After falling 108 feet?
my work: once more im not sure how to write the equation but this is what i tried:
-16t^2 - 22t + 220, then i plugged in 3 for t and got 10. and i had no idea how to do the second part