A)For the function below, write the differential. f(x) = ln(1 + x2) dy =( )dx B)calculate...

1. Compare the values of dy and Δy for the function. Function      x-Value      Differential...

1. Compare the values of dy and Δy for the function. Function      x-Value      Differential of x f(x) = 5x + 1      x = 1      Δx = dx = 0.01 dy = Δy = 2. Use differentials to approximate the change in profit corresponding to an increase in sales (or production) of one unit. Then compare this with the actual change in profit. Function      x-Value P = −0.2x3 + 800x − 80      x = 40...

Solve the given differential equations: a) dy/dx=(x+1)^2 b) (x+1)dy/dx-xy=x^2+x

Solve the given differential equations: a) dy/dx=(x+1)^2 b) (x+1)dy/dx-xy=x^2+x

1) Solve the given differential equation by separation of variables. exy dy/dx = e−y + e−6x...

1) Solve the given differential equation by separation of variables. exy dy/dx = e−y + e−6x − y 2) Solve the given differential equation by separation of variables. y ln(x) dx/dy = (y+1/x)^2 3) Find an explicit solution of the given initial-value problem. dx/dt = 7(x2 + 1),  x( π/4)= 1

Solve the special type second order differential equation:                             x2*d2y/dx^2+x(dy/dx)=1

Solve the special type second order differential equation:                             x2*d2y/dx^2+x(dy/dx)=1

(61). (Bernoulli’s Equation): Find the general solution of the following first-order differential equations:(a) x(dy/dx)+y= y^2+ln(x) (b)...

(61). (Bernoulli’s Equation): Find the general solution of the following first-order differential equations:(a) x(dy/dx)+y= y^2+ln(x) (b) (1/y^2)(dy/dx)+(1/xy)=1

find dy/dx : F(x) =(2x7-x2)(x-1/x+1)

find dy/dx : F(x) =(2x7-x2)(x-1/x+1)

(a) State the interval on which the solution to the differential equation (x^2-1)dy/dx + ln(x+1)y =...

(a) State the interval on which the solution to the differential equation (x^2-1)dy/dx + ln(x+1)y = 4e^x with initial condition y(2) = 4 exists. Do not attempt to solve the equation. ODE SHOW ALL STEPS PLEASE.

Exercise 178 Further problems on equations of the form dy dx=f(x). In Problems 1 to 5,...

Exercise 178 Further problems on equations of the form dy dx=f(x). In Problems 1 to 5, solve the differential equations. 1.dy/ dx = cos4x−2x 2. 2xdy/dx =3−x3       3.dy/dx +x=3, given y=2 when x=1 4. 3d/ dθ +sin θ=0, given y=2/3when θ=π 3 5.1/ex +2=x−3dy/dxgiveny= y=1 when x=0. 6. The gradient of a curve is given by: dy dx + x2 2 =3x engineering mathematics

Find the differential of each function. (a) y = x2 sin(6x) dy = (b) y =...

Find the differential of each function. (a) y = x2 sin(6x) dy = (b) y = ln 2 + t2 dy =

Consider the differential equation x2 dy + y ( x + y) dx = 0 with...

Consider the differential equation x2 dy + y ( x + y) dx = 0 with the initial condition y(1) = 1. (2a) Determine the type of the differential equation. Explain why? (2b) Find the particular solution of the initial value problem.