A2/PC 5.8 HW Problems: Applications of Quadratics. #6 has some formatting issues: 1) 1) The h(t) table is given ABOVE #6 for times t = 1, 2, 3 2) You'll need this complete table → for #6f) Sorry about the cut-off table! 3) Don't forget the question finishes on the BACK. y yai yai! swer key posted. Use for assistance... pying will make the Ball Lab VERY challenging. +₂5 t (time) 0 | 0.5 1 1.5 2 2.5 3 3.5 4 H (Height) 5 13.5 19 21.5 21 17.5 11 1.5 -11 First ROC ...... +8.5 +4.5 +2.5 -.5 -3.5 -9.5 ...

Advanced Engineering Mathematics
10th Edition
ISBN:9780470458365
Author:Erwin Kreyszig
Publisher:Erwin Kreyszig
Chapter2: Second-order Linear Odes
Section: Chapter Questions
Problem 1RQ
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how do I create a set of linear functions using this table?

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20
A2/PC 5.8 HW Problems: Applications of Quadratics.
#6 has some formatting issues:
1) 1)The h(t) table is given ABOVE #6 for times
t = 1, 2, 3
2)
to
You'll need this complete table for #6f)
->>>
Sorry about the cut-off table!
3)
Don't forget the question finishes on the BACK.
Aiy yai yai!
Answer key posted. Use for assistance...
copying will make the Ball Lab VERY challenging.
C
t (time)
0
0.5
1
1.5
2
2.5
3
3.5
4
J
k
H (Height)
5
13.5
19
21.5
21
T
17.5
11
1.5
-11
First ROC
+8.5
+4.5
+2.5
-.5
-3.5
11
1-9.5
. . *
Transcribed Image Text:shift ctrl Z X 20 A2/PC 5.8 HW Problems: Applications of Quadratics. #6 has some formatting issues: 1) 1)The h(t) table is given ABOVE #6 for times t = 1, 2, 3 2) to You'll need this complete table for #6f) ->>> Sorry about the cut-off table! 3) Don't forget the question finishes on the BACK. Aiy yai yai! Answer key posted. Use for assistance... copying will make the Ball Lab VERY challenging. C t (time) 0 0.5 1 1.5 2 2.5 3 3.5 4 J k H (Height) 5 13.5 19 21.5 21 T 17.5 11 1.5 -11 First ROC +8.5 +4.5 +2.5 -.5 -3.5 11 1-9.5 . . *
6. Imagine that an experiment is conducted on Mars in which an object is launched vertically from a
height of h, above the surface of the planet and with an initial velocity of v, in feet per second. The
height of the object is measured at three different points in time, and the data is recorded in the
table shown here.
a) Find a quadratic function that fits the data by solving a system.
(see #5)
Time (s) Height (ft)
1
2
3
19
21
11
Transcribed Image Text:6. Imagine that an experiment is conducted on Mars in which an object is launched vertically from a height of h, above the surface of the planet and with an initial velocity of v, in feet per second. The height of the object is measured at three different points in time, and the data is recorded in the table shown here. a) Find a quadratic function that fits the data by solving a system. (see #5) Time (s) Height (ft) 1 2 3 19 21 11
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