1. lution of a differential equation.etgen/hints.pdf · 2019. 11. 25. · 3. identify and find...
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1. y2 = Cx3 − 3 is the general so-
lution of a differential equation.
Find the equation.
1
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2. y = C1x2+C2 is the general so-
lution of a differential equation.
Find the equation.
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3. Identify and find the general so-
lution of each of the following
first order differential equations.
(a) xy′ = 5x3y1/2 − 4y
(b) x y′ + 3 y =cos 2x
x2.
(c) x2dy
dx= x2 + xy + y2
(d) 2y′ =y2 + 3
4y + xy.
(e) x2y′ = 4x3y3 + xy
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(f) x3y′ = x2y + 2x3ey/x
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4. Given the one-parameter family
y3 = Cx2 + 4.
(a) Find the differential equation
for the family.
(b) Find the differential equation
for the family of orthogonal tra-
jectories.
(c) Find the family of orthogonal
trajectories.
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5. A certain radioactive material is
decaying at a rate proportional
to the amount present. If a sam-
ple of 100 grams of the material
was present initially and after 3
hours the sample lost 30% of its
mass, find:
(a) An expression for the mass A(t)
of the material remaining at
any time t.
(b) The mass of the material after
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8 hours.
(c) The half-life of the material.
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6. Scientists observed that a colony
of penguins on a remote Antarc-
tic island obeys the population
growth law. There were 1000
penguins in the initial population
and there were 3000 penguins 4
years later.
(a) Give an expression for the num-
ber P (t) of penguins at any
time t.
(b) How many penguins will there
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be after 6 years?
(c) How long will it take for the
number of penguins to quadru-
ple?
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7. A disease is infecting a herd of
1000 cows. Let P (t) be the
number of sick cows t days af-
ter the outbreak. Suppose that
50 cows had the disease initially,
and suppose that the disease is
spreading at a rate proportional
to the product of the time elapsed
and the number of cows who do
not have the disease.
(a) Give the mathematical model
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(initial-value problem) for P .
(b) Find the general solution of the
differential equation in (a).
(c) Find the particular solution that
satisfies the initial condition.
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8. Determine a fundamental set of
solutions of y′′ − 2 y′ − 15 y = 0.
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9. Find the general solution of y′′+
6y′ + 9y = 0.
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10. Find the general solution of y′′+
4y′ + 20y = 0
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11. Find the solution of the initial-
value problem y′′ − 7y′ + 12y =
0, y(0) = 3, y′(0) = 0.
Answer: y = 12e3x − 9e4x.
12. The function y = −2 e−3x sin 2x
is a solution of a second order,
linear, homogeneous differential
equation with constant coefficients.
What is the equation?
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13. The function
y = −2 e3x + 4 xe3x
is a solution of a second order,
linear, homogeneous differential
equation with constant coefficients.
What is the equation?
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14. Find a particular solution of y′′−
6y′ + 8y = 4e4x.
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15. Give the form of a particular so-
lution of the nonhomogeneous dif-
ferential equation
y′′−8 y′+16 y = 2 e4x+3 cos 4x−2x+1.
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16. Given the differential equation
y′′ − 4 y′ + 4 y =e2x
x
(a) Give the general solution of
the reduced equation.
(b) Find a particular solution of
the nonhomogeneous equation.
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17. Find the general solution of y′′−
4
xy′ +
6
x2y =
4
x2. HINT: The re-
duced equation has solutions of
the form y = xr.
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18. Find a particular solution of y′′+
4y = 2tan 2x.
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19. The general solution of
y(4)−6 y′′′+17 y′′−28 y′+20 y = 0
is: (HINT: 2 is a root of the
characteristic polynomial)
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20. Give the form of a particular so-
lution of
y(4)+5 y′′−36 y = 2x+3e2x−2 sin 3x
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21. Find the Laplace transform of the
solution of the initial-value prob-
lem
y′′−3y′−6 y = 2e2x+4; y(0) = 5, y′(0) = −
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22. Find f(x) = L−1[F (s)] if F (s) =
3
s2+
4s + 3
s2 + 4.
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23. Find f(x) = L−1[F (s)] if F (s) =
s2 − 3s − 1
(s − 2)2(s + 4)
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24. Find L[f(x)] if
f(x) =
x2 + 2x 0 ≤ x < 4
x x ≥ 4
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25. F (s) =5
s2−
3
s−2 e−3s 1
s2+3 e−3s1
s+
2e−3s s + 1
s2 + π2. Find L−1[F (s)] =
f(x).
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26. Given the initial-value problem
y′ − 4 y = 2 e−2x, y(0) = 3.
(a) Find the Laplace transform
of the solution.
(b) Find the solution by finding
the inverse Laplace transform of
your answer to (a).
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27. Given the system of equations
x +2y −z = 12x +5y −4z = 3
−2x −2y −2z = 0
(a) Write the augmented matrix
for the system.
(b) Reduce the augmented ma-
trix to row-echelon form.
(c) Give the solution set of the
system.
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28. Determine the values of k so
that the system of equations
x + y − z = 12x + 3y + kz = 3x + ky + 3z = 2
has: (a) a unique solution, (b)
no solutions, (c) infinitely many
solutions:
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29. Find the values of λ, (if any)
such that A =
λ 0 30 1 λ
−2 −1 −5
is nonsingular.
Answer: λ 6= 2,3
30. The matrix A =
1 2 02 5 −3
−2 −4 1
is nonsingular. Find A−1.
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31. The system of equations
2x − y + 3z = 4
y + 2z = −2
x + z = 1
has a unique solution. Find y.
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32. Determine whether the vectors
v1 = (1, −3, 2 ), v2 = (0, −2, −2 ),
v3 = (1, −5, 0 ), v4 = (0, 4, 4 )
are linearly dependent or linearly
independent. If they are linearly
dependent, find the maximal num-
ber of independent vectors.
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33. For what values of a are the vec-
tors
v1 = (1, −3, a ), v2 = ( a, −2, −2 ),
v3 = (1, 1, 0 )
linearly dependent?
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34. Find the eigenvalues and eigen-
vectors of
3 2 −2−3 −1 31 2 0
. Hint:
2 is an eigenvalue.
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35. Find the eigenvalues and eigen-
vectors of
2 2 −62 −1 −3
−2 −1 1
. Hint:
6 is an eigenvalue.
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36. Find the eigenvalues and eigen-
vectors of
−2 1 −13 −3 43 −1 2
. Hint:
1 is an eigenvalue.
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37. Find the solution of the initial-
value problem x′ =
1 1 20 2 2
−1 1 3
x, x(0) =
201
. HINT: 1 is an eigenvalue.
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38. Find a fundamental set of solu-
tions of x′ =
2 1−5 4
x.
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39. The system x′ =
0 1−8 6
x is
equivalent to a second order lin-
ear equation. (a) What is the
equation? (b) Find the general
solution of the system.
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40. Find the general solution of x′ =
2 −11 4
x.
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41. Find the general solution of x′ =
1 1 12 1 −10 −1 1
x. HINT: 2 is a
root of the characteristic poly-
nomial.
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42. Find a fundamental set of solu-
tions of x′ =
5 4 24 5 22 2 2
x. HINT:
10 is a root of the characteristic
polynomial.