Use Euler's Method to approximate f(4) given that (df/dt)=9-1t^2 and f(0)=1. Use delta t=1.

Let f(t) be the solution of y' = y(4t-1), y(0) = 4. Use Euler's method with...

Let f(t) be the solution of y' = y(4t-1), y(0) = 4. Use Euler's method with n = 3 to estimate f(1). (Round your answer to three decimal places.)

Use Euler's Method to find the approximate value at x=0.5 with h=0.1 given y' = y...

Use Euler's Method to find the approximate value at x=0.5 with h=0.1 given y' = y (6 - xy) and y(0) = 1.4.

Given the initial value problem: y'=6√(t+y),  y(0)=1 Use Euler's method with step size h = 0.1 to...

Given the initial value problem: y'=6√(t+y),  y(0)=1 Use Euler's method with step size h = 0.1 to estimate: y(0.1) = y(0.2) =

Given : dy/dt = -100000y + 99999 e^(-t) a. If y(0)=0 use the explicit Euler method...

Given : dy/dt = -100000y + 99999 e^(-t) a. If y(0)=0 use the explicit Euler method to obtain a solution using a step size of 0.1. Carry out 2 iterations. What do you notice? b. Estimate the minimum step size required to maintain stability using the explicit Euler method. b. Repeat the problem using the implicit Euler method to obtain a solution from t=0 to 2 using a step size of 0.1.

Apply Euler's method twice to approximate the solution of the equation y'=y-x-1, y(0)=1 at x=0.5. Use...

Apply Euler's method twice to approximate the solution of the equation y'=y-x-1, y(0)=1 at x=0.5. Use h=0.1. a. y(0.5)=1.089 b. y(0.5)=0.579 c. y(0.5)=1.534 d. y(0.5)=0.889

Use Euler's Method with step size 0.12 to approximate y (0.48) for the solution of the...

Use Euler's Method with step size 0.12 to approximate y (0.48) for the solution of the initial value problem   y ′ = x + y, and y (0)= 1.2 What is y (0.48)? (Keep four decimal places.)

1. If f(x) = ∫10/x t^3 dt then: f′(x)= ? and f′(6)= ? 2. If f(x)=∫x^2/1...

1. If f(x) = ∫10/x t^3 dt then: f′(x)= ? and f′(6)= ? 2. If f(x)=∫x^2/1 t^3dt t then f′(x)= ? 3. If f(x)=∫x3/−4 sqrt(t^2+2)dt then f′(x)= ? 4. Use part I of the Fundamental Theorem of Calculus to find the derivative of h(x)=∫sin(x)/−2 (cos(t^3)+t)dt. what is h′(x)= ? 5. Find the derivative of the following function: F(x)=∫1/sqrt(x) s^2/ (1+ 5s^4) ds using the appropriate form of the Fundamental Theorem of Calculus. F′(x)= ? 6. Find the definitive integral: ∫8/5...

Consider the following initial value problem: dy/dt = -3 - 2 * t2,       y(0) = 2...

Consider the following initial value problem: dy/dt = -3 - 2 * t2,       y(0) = 2 With the use of Euler's method, we would like to find an approximate solution with the step size h = 0.05 . What is the approximation of y (0.2)?  

Use​ Euler's method with step size h=0.2 to approximate the solution to the initial value problem...

Use​ Euler's method with step size h=0.2 to approximate the solution to the initial value problem at the points x=4.2 4.4 4.6 4.8 round to two decimal y'=3/x(y^2+y), y(4)=1

Use Euler's method to approximate y(1.2), where y(x) is the solution of the initial-value problem x2y''...

Use Euler's method to approximate y(1.2), where y(x) is the solution of the initial-value problem x2y'' − 2xy' + 2y = 0,  y(1) = 9,  y'(1) = 9, where x > 0. Use h = 0.1. Find the analytic solution of the problem, and compare the actual value of y(1.2) with y2. (Round your answers to four decimal places.) y(1.2) ≈     (Euler approximation) y(1.2) =     (exact value)