(i)dy= xe +y with initialdxThe ordinary differential equation is given bycondition y(1)=1. Apply Milne Fourth order Method with step lengthsolutionish=0.05toestimatey(1.5).Theactual1y-1+3e+2*+4e 2* - 2x). Keep all calculations to 5 decimalplaces, find the error of each step and give your answer correct to 3D.

An ordinary differential equation is given by, dydx = xe-x+y with initial condition y1 = 1. The…

Answered: (i) dy The ordinary differential…

Advanced Engineering Mathematics

10th Edition

ISBN:9780470458365

Author:Erwin Kreyszig

Publisher:Erwin Kreyszig

Chapter2: Second-order Linear Odes

Section: Chapter Questions

Problem 1RQ

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Let y(t) represent your bank account balance, in dollars, after t years. Suppose you start with $40000 in the account. Each year the account earns 6% interest, and you withdraw $3000. Write the differential equation modeling this situation. dy dt y(0) =
The initial concentration of phosphorous (C) in a waste water pond is 107 ppm, as against the acceptable limit of 6.75x10 ppm. The concentration (C) will reduce as fresh water enters the pond. The differential equation that governs the concentration, C as a function of time (in weeks) is given by. dc +0.06 C = 0, C (0) =107 ppm dt Using Euler's method and a step size of 3.5 weeks, Calculate (.) The concentration of the phosphorus after 7 weeks. (H.) Exact concentration after 7 weeks (l.) Relative absolute error
Newton's Law of Cooling tells us that the rate of change of the temperature of an object is proportional to the temperature difference between the object and its surroundings. This can be modeled by the differential equation =k(TA), where T is the temperature of the object after t units of time have passed, A is dT dt the ambient temperature of the object's surroundings, and k is a constant of proportionality. Suppose that a cup of coffee begins at 179 degrees and, after sitting in room temperature of 62 degrees for 14 minutes, the coffee reaches 170 degrees. How long will it take before the coffee reaches 160 degrees? Include at least 2 decimal places in your answer. minutes
(2) dy Consider the differential equation = x+sin y. dx 7 (a) A solution curve passes through the point (b) Argue that every solution curve is increasing for x>1. What is its slope at this point?
At t=0, a 600 liter tank initially contains 50 grams of salt dissolved in 300 liters of water. Then, water that contains 2 grams of salt per liter is poured into the tank at a rate of 5 liters per minute. The solution in the tank is constantly stirred so the salt concentration is uniform at any given time t. Water leaves the tank at a rate of 2 liters per minute. Determine when the tank will overflow and create a differential equation to determine how much salt will be in the tank after 1 hour.
Solve the following variation of parameters differential equation: y"-y=e2x , y(0)=0, y'(0)=0
Find the solution of the differential equation that satisfies the initial condition. Use the equation editor to show your work, located in the " Va"icon above. EXPLAIN YOUR STEPS IN WORDS. dL – kL² lnt L (1) = -1 dt

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