Use Euler's Method to approximate y(0.5) given dy/dx=3x-3y with y(0)=3 and delta x=0.1.
Use Euler's Method to approximate y(0.5) given dy/dx=3x-3y with y(0)=3 and delta x=0.1.
Given (dy/dx)=(3x^3+6xy^2-x)/(2y) with y=0.707 at x= 0, h=0.1 obtain a solution by the fourth order Runge-Kutta method for a range x=0 to 0.5
(a) Use Euler's Method with a step size h = 0.1 to approximate y(0.0), y(0.1), y(0.2), y(0.3), y(0.4), y(0.5) where y(x) is the solution of the initial-value problem ay = - y2 cos x, y(0) = 1. (b) Find and compute the exact value of y(0.5). dx
dy Use Euler's Method with step size h = 0.2 to approximate y(1), where y(x) is the solution of the initial-value problem + 3x2y = 6x2, dx y(0) = 3.
Problem 1 Use Euler's method with step size h = 0.5 to approximate the solution of the IVP. 2 dy ev dt t 1-t-2, y(1) = 0. Problem 2 Consider the IVP: dy dt (a) Use Euler's method with step size h0.25 to approximate y(0.5) b) Find the exact solution of the IV P c) Find the maximum error in approximating y(0.5) by y2 (d) Calculate the actual absolute error in approximating y(0.5) by /2. Problem 1 Use Euler's method...
Use the transformation u = 3x + y, v=x + 3y to evaluate the given integral for the region R bounded by the lines y = - 3x + 1, y= - 3x + 3, y= - = X, and y=- -x + 2. ne lines y = – 3x+1, y = – 3x+3, y=-3x, and y=-**+2. 3 Siſ(3?+ 16 +3%) dx ay SJ (3x? + 10x9 +35) dx dy=0 (Simplify your answer.)
use euler’s method to approximate the indicated function value to three decimal places using h= 0.1. dy/dx = e^-y + x; y(0)=0; find y(0.4) Use Euler's method to approximate the indicated function value to three decimal places using h=0.1. a = e "Y + x; y(0) = 0; find y(0.4)
Find the general solution for the differential equation. x dy/dx + 3y = 4x2 – 3x; x>0 y=_______
Solve the given initial value problem. dx = 3x + y - e 3t. dt x(0) = 2 dy = x + 3y; dt y(0) = - 3 The solution is x(t) = and y(t) = 0
Please answer #2 A and B for the Lightbulb problem "dy", etc. (a). The marginal density, fr (y), of Y. (Be explicit about all cases.) (b). P(X > 0.1 IY 0.5) (c), E(X | Y 0.5) 2x +2y ) dy 3y: if 0 y < 1, and 0 otherwise 0.1 r2x +2 (0.5) (3) 0.5 dx 64/75 2x +2(0.5) (3)0.52 dx- 5/18 2. Let Y be the lifetime, in minutes, of a lightbulb. Assume that the lightbulb has an expected...
Use Euler's method with step size 0.5 to compute the approximate y-values Y1, Y2, Y3 and Y4 of the solution of the initial-value problem y' = y - 3x, y(1) = 2. Y1 = Y2 = Y3 = Y4