Solve the following system of IVP: [11 x = Ax where A=[1 1 LO 0 0 0 -10 and x(0) = 4 [2.
The solution of the IVP dy dx = (ax+by+1)2 – 6; y(0)=0, where a € R and b ERVO} Select one: a. (ax +by+1)(1+x)= 1 O b. (ax+by+1)(1-x)=3 O c. (ax+by+1)2(1 - bx)=1 2 O d. (ax +by+1)= 1- bx e. (ax+by+1)(1-bx)= 1 of. (ax +by+1) (1 -bx)2 = 1 о g. (ax +by-1)(1-bx) = 1 O h. ax + by=1
The solution of the IVP dy dx = (ax+by+ 1)2 - ; y(0)=0, where a ER and b ERVO) is Select one: a. (ax+by+1)(1 + bx)= 1 2 b. (ax+by+1)= 1-bx c. ax + by=1 d. (ax +by+1)(1 - bx)2 = 1 e. (ax+by-1)(1 - bx)= 1 f. (ax+by+1) (1 - bx)= 1 g. (ax +by+1)(1-bx)= 1 h. (ax+by+1)(1 - bx)=3
a=1 b=3 7. Solve the differential equation: x x + (ax – 7)y = bx? (Note: Where a and b are any two numbers of your MEC ID No. and a, b>0) (9 marks)
The solution of the IVP dy dx = (ax+by+112 - 8 yO=0, where a ER and b ERVO} Select one: O a. (ax + by + 1) (1 + bx)=1 O b. ax +by=1 O c.(ax +by+1) (1 - bx)=1 o d. (ax+by-1 (1-bx)= 1 2 O e. (ax+by+1)= 1-bx of. (ax +by+1)(1-bx)2 = 1 O 8. (ax +by+1)(1-bx)=1 oh. (ax +by+1)(1 - bx)=3
1.a. b. c. Solve the IVP 2 [:] = [3 =:] [:] []=[3] ņ Find e At where 2 5 A = -2 -4 Solve the IVP (21-1 -3) M (O)-() x(0) I g(0)
a.) Solve the following IVP. X !=3x,-13x2 X, (O)=3 X2 = 5x +X2 X₂(0)=-10 b.) solve the following IVP. X;= -X, +(3/2) X2 X, (2)=1 X 2 = (-%6) xx-2x2 X2 (2)=0
The solution of the IVP dy dx (ax +by+12-6: YO)=0, where a ER and b ERVO) is Select one: a. ax+by=1 b. (ax+by+1)(1-bx)= 3 c. (ax+by-1)(1-bx) = 1 d. (ax+by+1)(1-bx)2 = 1 e. (ax+by+1)(1 - bx)= 1 2 f. (ax+by+1) = 1- by o g. (ax +by+1) (1 - bx)=1 n. (ax +by+1)(1+bx)= 1
use laplace transforms to solve ivp x" + 2x' - 15x = 6delta(t -9), x(0) = -5, x'(0) = 7
The solution of the IVP dy dx = (ax+by+1)2 - Ø; y(D)=0, where a ER and b ERVO) is Select one: a. ax+by=1 b. (ax+by+1)(1-bx) - 3 c. (ax+by-1)(1 - bx)= 1 d. (ax +by+1)(1 - bx)2 = 1 e. (ax+by+1)(1-bx)= 1 2 f. (ax+by+1)= 1-bx g. (ax+by+1) (1 - bx)= 1 h. (ax+by+ 1)(1+bx) = 1 O O