MAP 2302 Exam #2 Review Instructions: Exam #1 will consist of 4 questions, although some questions may consist of multiple parts. Be sure to show as much work as possible in order to demonstrate that you know what you are doing. The point value for each question is listed aft er each question. A scientific calculator may be used but no graphing calculators or calculators on any device (cell phone, iPod, etc.) which can be used for any other purpose. The exam will be similar to this review, although the numbers and functions may be differe nt so the steps and details (and hence the answers) may work out different . But the ideas and concepts will be the same. There is a formula sheet after the last problem, before the scratch paper.
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MAP 2302 Exam #2 Review - University of Miami · 2011-10-24 · MAP 2302 Exam #2 Review . Instructions: Exam #1 will consist of 4 questions, although some questions may consist of
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MAP 2302 Exam #2 Review
Instructions: Exam #1 will consist of 4 questions, although some questions may consist of multiple parts. Be sure to show as much work as possible in order to demonstrate that you know what you are doing. The point value for each question is listed after each question. A scientific calculator may be used but no graphing calculators or calculators on any device (cell phone, iPod, etc.) which can be used for any other purpose. The exam will be similar to this review, although the numbers and functions may be different so the steps and details (and hence the answers) may work out different . But the ideas and concepts will be the same. There is a formula sheet after the last problem , before the scratch paper.
(1) Determine whether the given set of functi ons is linearly independent on the interval (-00, (0). (8 points each)
(a) h (x) = 1 + .r, 12 (x) = x, h (x ) = x2
\-he Y. Xl. Wl\t'£~ 't/'(Z)-=
" (I~) \ '0 z: \_X \ ~ : \ ~ X~ \ 'v : \ 1..~
0 0 "l
(b) JI(x) = 5, 12(x) = cos2 x, ./3(X) = sin2 x
tO~l X
o
o
- 5 o
o
o
(2) Find the general solution of each differential equation. (6 points each)
(a) y" - y' - 6y = 0
w,.z.. - '" - ~ =-0
(b) y(4) - 7y" - 18y = 0
'1. '2.. Cf\'I - l-vn - (0 =: 0
(1M +~) (11'\ - J) (W\'l- t 1') =-0
I ~ \,VtIL .} 2. ::'0
(Il~ :"- L
i1\ ~ t M -=- ±l JZ. =)> J..-=-D, P=~
- 3 ~ 3~ ~)<, ( - \r-(,e -1-(1. e -+ e C3 COS J2 ~ +(~ t)1'" rz:~)
r e- )); + C e1 ).. + L ~ rz: X -\- C't ~\~ Six - '--I 1.. 3
(c) y" - lOy' + 25y = 0
CIr\ -S) (M -5") -=-0
(d) y" - 4y' + 5y = 0
- ~ t J-c[-~(I) -
(e) 16y(4) + 24y" + 9y = 0
If.o~ ~ t 2"( ~~ +~ :::'-t)
'-2 ~ ~ J2'('2 - l{ (r~) (~)
J(lIt,)
(3) Find the general solution of each differential equation. (15 points each)