In each of Problems 1 through 26: (a) Find the general solution in terms of real functions. (b) From the roots of the characteristics equation, determine whether each critical point of the corresponding dynamical system is asymptotically stable, stable, or unstable, and classify it as to type. (c) Use the general solution obtained in part (a) to find a two parameter family of trajectories X = x 1 i + x 2 j = y i + y ' j of the corresponding dynamical system. Then sketch by hand, or use a computer, to draw a phase portrait, including any straight-line orbits, from this family of trajectories. 4 y ' ' − 9 y = 0
In each of Problems 1 through 26: (a) Find the general solution in terms of real functions. (b) From the roots of the characteristics equation, determine whether each critical point of the corresponding dynamical system is asymptotically stable, stable, or unstable, and classify it as to type. (c) Use the general solution obtained in part (a) to find a two parameter family of trajectories X = x 1 i + x 2 j = y i + y ' j of the corresponding dynamical system. Then sketch by hand, or use a computer, to draw a phase portrait, including any straight-line orbits, from this family of trajectories. 4 y ' ' − 9 y = 0
(a) Find the general solution in terms of real functions.
(b) From the roots of the characteristics equation, determine whether each critical point of the corresponding dynamical system is asymptotically stable, stable, or unstable, and classify it as to type.
(c) Use the general solution obtained in part (a) to find a two parameter family of trajectories
X
=
x
1
i
+
x
2
j
=
y
i
+
y
'
j
of the corresponding dynamical system. Then sketch by hand, or use a computer, to draw a phase portrait, including any straight-line orbits, from this family of trajectories.
(3) The approximate enrollment, in millions between the years 2009 and 2018 is
provided by a linear model
Y3D0.2309x+18.35
Where x-0 corresponds to 2009, x=1 to 2010, and so on, and y is in millions of
students.
Use the model determine projected enrollment for the
year
2014.
近
(i) Find the solution set of the following equations:
2log; x- 3log, y =7 and log, x-2log; y = 4
(ii).Given that log, (y-1)+log.=
|= z and log, (y +1)+log, x = z-1,
4
Show that y? =1+8 and find the possible value(s) of y and x
when z=1
(iii). Two executives in cities 400 miles apart drive to a business
meeting at a location on the line between their cities. They
meet after 4 hours. Find the speed of each car if one car travels
20 miles per hour faster than the other.
Suppose an object weighing 64 pounds stretches a spring 8 feet. If the object is attached to the spring and released 5 feet below the equilibrium position from rest, find the equation of motion of the object x(t).
Elementary Statistics: Picturing the World (7th Edition)
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