Use Euler’s method with h = π/4 to solve y’ = y cos(x) , y(0) =...

Let S be the portion of the surface z=cos(y) with 0≤x≤4 and -π≤y≤π. Find the flux...

Let S be the portion of the surface z=cos(y) with 0≤x≤4 and -π≤y≤π. Find the flux of F=<e^-y,2z,xy> through S: ∫∫F*n dS

1. Consider the initial value problem dy/dx =3cos(x^2) with y(0)=2. (a) Use two steps of Euler’s...

1. Consider the initial value problem dy/dx =3cos(x^2) with y(0)=2. (a) Use two steps of Euler’s method with h=0.5 to approximate the value of y(0.5), y(1) to 4 decimal places. b) Use four steps of Euler’s method with h=0.25, to approximate the value of y(0.25),y(0.75),y(1), to 4 decimal places.    (c) What is the difference between the two results of Euler’s method, to two decimal places?   

4.Given F(x,y,z)=(cos(y))i+(sin(y))j+k, find divF and curlF at P0(π/4,π,0) divF(P0)=? curlF(P0)= ?

4.Given F(x,y,z)=(cos(y))i+(sin(y))j+k, find divF and curlF at P0(π/4,π,0) divF(P0)=? curlF(P0)= ?

Problem 6. Use Euler’s Method to approximate the particular solution of this initial value problem (IVP):...

Problem 6. Use Euler’s Method to approximate the particular solution of this initial value problem (IVP): dydx=√y+x satisfying the initial condition y(0)=1 on the interval [0,0.4] with h = 0.1. Round ?? to 4 decimal places.

The Taylor series for f(x)=cos(x) at a= π/4 is ∑ n=0 ∞ c n (x− π...

The Taylor series for f(x)=cos(x) at a= π/4 is ∑ n=0 ∞ c n (x− π 4 ) n . ∑n=0∞cn(x−π4)n. Find the first few coefficients.

Use Euler’s Method to obtain a five-decimal approximation of the indicated value. Carry out the recursion...

Use Euler’s Method to obtain a five-decimal approximation of the indicated value. Carry out the recursion by hand, using h = 0.1 and then using h = 0.05. y′ = -y + x + 1, y(0) = 1. Find y(1)

Solve the initial value problem 2(sin(t)dydt+cos(t)y)=cos(t)sin^3(t) for 0<t<π0<t<π and y(π/2)=13.y(π/2)=13. Put the problem in standard form....

Solve the initial value problem 2(sin(t)dydt+cos(t)y)=cos(t)sin^3(t) for 0<t<π0<t<π and y(π/2)=13.y(π/2)=13. Put the problem in standard form. Then find the integrating factor, ρ(t)= and finally find y(t)=

Solve the initial value problems. 1) x (dy/dx)+ 2y = −sinx/x , y(π) = 0. 2)...

Solve the initial value problems. 1) x (dy/dx)+ 2y = −sinx/x , y(π) = 0. 2) 3y”−y=0 , y(0)=0,y’(0)=1.Use the power series method for this one . And then solve it using the characteristic method Note that 3y” refers to it being second order differential and y’ first

Apply Euler’s method in the interval [0,1] with the step size of 0.2 to solve numerically...

Apply Euler’s method in the interval [0,1] with the step size of 0.2 to solve numerically the initial value problem: , . Report the approximation for , and all the intermediate steps. y' = x + y/2 y(0) = −8

1. Use Euler’s method with step size ∆x = 1 to approximate y(4), where y(x) is...

1. Use Euler’s method with step size ∆x = 1 to approximate y(4), where y(x) is the solution of the initial value problem: y' = x2+ xy y(0) = 1 2. The coroner arrives at a murder scene at 9:00 pm. He immediately determines that the temperature of the body is 83◦F. He waits one hour and takes the temperature of the body again; it is 81◦F. The room temperature is 68◦F. When was the murder committed? Assume the man...