Systems of First-Order Differential Equations 329SOLUTIONLet u1 = x, u2 = x', u3 = y, and U4 = y'. So u 1 represents the x-coordinate
of the position of the electron and u 2 represents the velocity of the electron in
the x-direction. While u3 represents the y-coordinate of the electron and u 4
represents its velocity in the y-direction. Differentiating u 1 , u 2 , u 3 , and u 4 ,
substituting from (23a), and then substituting for x, x', y, and y' in terms of
u 1 , u2, u3, and u 4 , we obtain the following first-order system of four equations
which is equivalent to the system (23a).u~ = x' = U2
(24a)u; = x" = -HRy' +ER -HRu 4 +ER
u; = y' = U4
IU4 = y" = HRx' = HRu2.
Substituting for x, x', y, and y' in terms of u 1 , u 2 , u 3 , and u 4 , we see that
the initial conditions which are equivalent to (23b) are
(24b) u 1 (0) = 0, u2(0) = 0, u3(0) = 0, u4(0) = 0.
Hence, the required equivalent first-order system initial value problem consists
of the system (24a) together with the initial conditions (24b).
EXERCISES
l. Verify that {y 1 (x) = 3ex, y 2 (x) = ex} is a solution on the interval
( -oo, oo) of the system of differential equationsy~ 2y1 - 3y2
y; Y1 - 2y22. Verify that {y 1 (x) = e-x, y 2 (x) = e-x} is also a solution on the interval
( - oo, oo) of the system in exercise 1.- Verify that {y 1 (x) = -e^2 x( cos x +sin x), Y2(x) = e^2 x cos x} is a solution
on ( -oo, oo) of the system of differential equations
Y~ Y1 - 2y2
y; Y1 + 3y24. Verify that {y 1 (x) = 3x - 2, y2(x) = -2x + 3} is a solution on (-oo, oo)
of the system initial value problemY~ Y1 + 2y2 + x - 1
y; 3y1 + 2y2 - 5x - 2