a. Sketch the graph of the forcing function on an appropriate interval. b. Find the solution...

Given the polynomial function f(x)=(x-a)(x-b)^2, and a<0<b, find the following: A). Sketch the graph B). find...

Given the polynomial function f(x)=(x-a)(x-b)^2, and a<0<b, find the following: A). Sketch the graph B). find the x and the y intercepts C). find the solution to f(x)<0 D). find the solution to f(x) is greater than or equal to 0

(a) Solve the differential equations. 4y´´ + 12y´ + 9y= 0 (b) Find the general solution...

(a) Solve the differential equations. 4y´´ + 12y´ + 9y= 0 (b) Find the general solution of the ODE y´´- 5y´+4y=e^4t (c) Solve the following initial value problem: y´´+ y =0, y(0)=2, y´(0)=2

A) Find the solution of the given initial value problem in explicit form. B) Determine the...

A) Find the solution of the given initial value problem in explicit form. B) Determine the interval in which the solution is defined. C) Plot the graph of the solution. y' = (1-2x)y^2, y(0)= -1/6 Please use good handwriting and show all steps possible.

Sketch y = 2 sin(x) + x - 2 (b) This graph intersects the x-axis exactly...

Sketch y = 2 sin(x) + x - 2 (b) This graph intersects the x-axis exactly once. (i) Show that the x-intercept of the graph does not lie in the interval (0, 0.7) (ii) Find the the value of a, 0<a<1 for which the graph will cross the x-axis in the interval (a, a + 0.1) and state this interval (iii) Given x = alpha is the root of the equations 2 Sin(x) + x - 2 = 0, explain...

Sketch the graph of the function by applying the Leading Coefficient Test, finding the real zeros...

Sketch the graph of the function by applying the Leading Coefficient Test, finding the real zeros of the polynomial, plotting sufficient solution points, and drawing a continuous curve through the points. g(x) = 1/10(x + 1)2(x − 4)3 (a) Apply the Leading Coefficient Test. The graph of the function rises to the left and rises to the right. The graph of the function rises to the left and falls to the right.     The graph of the function falls to the...

Find the solution of the initial value problem y′′+4y=t^2+4^(et), y(0)=0, y′(0)=3.

Find the solution of the initial value problem y′′+4y=t^2+4^(et), y(0)=0, y′(0)=3.

find the general solution of the given differential equation 1. y''−2y'+2y=0 2. y''+6y'+13y=0 find the solution...

find the general solution of the given differential equation 1. y''−2y'+2y=0 2. y''+6y'+13y=0 find the solution of the given initial value problem 1. y''+4y=0, y(0) =0, y'(0) =1 2. y''−2y'+5y=0, y(π/2) =0, y'(π/2) =2 use the method of reduction of order to find a second solution of the given differential equation. 1. t^2 y''+3ty'+y=0, t > 0; y1(t) =t^−1

The homogeneous solutions to an ODE are sin(2t) and cos(2t). Suppose that the forcing function is...

The homogeneous solutions to an ODE are sin(2t) and cos(2t). Suppose that the forcing function is 1.5 cos(2t) what is an appropriate form of the general solution? y(t)=Acos2t +Bsin2t + C t cos(2t+ᶲ) ,        (b) y(t)=Acos2t +Bsin2t + C cos2t + Dsin2t y(t)=Acos2t +Bsin2t,                                      (d) y(t)=Acos2t +Bsin2t + C cos(2t+ᶲ) What is the total number of linearly independent solutions that the following ODE must have? y" +5y'+6xy=sinx Two       (b) Four                (c) Three              (d) Five

Find the function y1(t) which is the solution of 4y″+32y′+64y=0 with initial conditions y1(0)=1,y′1(0)=0. y1(t)=? Find...

Find the function y1(t) which is the solution of 4y″+32y′+64y=0 with initial conditions y1(0)=1,y′1(0)=0. y1(t)=? Find the function y2(t) which is the solution of 4y″+32y′+64y=0 with initial conditions y2(0)=0, y′2(0)=1. y2(t)= ? Find the Wronskian of these two solutions you have found: W(t)=W(y1,y2). W(t)=?

Find the Green's function for each of the following problem, and determine the solution of each...

Find the Green's function for each of the following problem, and determine the solution of each of the following boundary-value problem: y" + 4y = e^x y(0) = 0 y'(1) = 0