TEXAS A&M UNIVERSITY DEPARTMENT OF MATHEMATICS MATH 308-200

advertisement
TEXAS A&M UNIVERSITY
DEPARTMENT OF MATHEMATICS
MATH 308-200
Exam 1 version A, 29 Sep 2011
On my honor, as an Aggie, I have neither given nor received unauthorized aid on this work.
Name (print):
No detailed analytical work — no points.
1.
Find the general solution of
2
xy 0 − (2x2 + 1)y = −ex .
2.
Find the general solution to
1
3
y 0 = 0;
3x sin(2y) + 2x cos(2y) +
y
2
3.
For the equation
y 0 = y(1 − y),
1. Find stationary solutions (critical points) and draw the phase diagram.
2. Using the phase diagram, predict the large t limit of the solution y(t) that satisfies
the initial condition y(0) = 1/2.
3. Find explicit solution to the IVP and compare with your prediction.
4.
The small oscillations of a pendulum are described by the equation
θ00 + bθ0 + 16θ = 0,
where θ(t) is the angle and b is related to friction.
1. Find the general solution for b = 0, 4, 8, 10.
2. For which of the above values the solution tends to 0? Explain the physical meaning
of your answer.
3. For which of the above values the solution y(t) will keep changing sign (i.e. y(t) = 0
has infinitely many solutions). Would your answer depend on the initial conditions?
5.
(Bonus question: 2pnts) Solve
ty 00 − y 0 − 4t3 y = 0,
by looking for solution of the form y(t) = f (t2 ) and obtaining an equation in terms of f (u)
and u (where u = t2 ).
Points:
/20
Download