DIFFERENTIAL EQUATIONS-NEXTGEN WILEYPLUS
3rd Edition
ISBN: 9781119764564
Author: BRANNAN
Publisher: WILEY
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Textbook Question
Chapter 8.2, Problem 9P
In each of Problem 7 through 12, find approximate values of the solution of the given initial value problem at
a) Use the Euler method with
b) Use the Euler method with
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The Martin-Beck Company operates a plant in St. Louis with an annual capacity of 30,000 units. Product is shipped to regional distribution centers located in Boston, Atlanta, and Houston. Because of an anticipated increase in demand, Martin-Beck plans to increase capacity by constructing a new plant in one or more of the following cities: Detroit, Toledo, Denver, or Kansas. The following is a linear program used to
determine which cities Martin-Beck should construct a plant in.
Let
y₁ = 1 if a plant is constructed in Detroit; 0 if not
y₂ = 1 if a plant is constructed in Toledo; 0 if not
y₂ = 1 if a plant is constructed in Denver; 0 if not
y = 1 if a plant is constructed in Kansas City; 0 if not.
The variables representing the amount shipped from each plant site to each distribution center are defined just as for a transportation problem.
*,, = the units shipped in thousands from plant i to distribution center j
i = 1 (Detroit), 2 (Toledo), 3 (Denver), 4 (Kansas City), 5 (St.Louis) and…
Consider the following mixed-integer linear program.
Max
3x1
+
4x2
s.t.
4x1
+
7x2
≤
28
8x1
+
5x2
≤
40
x1, x2 ≥ and x1 integer
(a)
Graph the constraints for this problem. Indicate on your graph all feasible mixed-integer solutions.
On the coordinate plane the horizontal axis is labeled x1 and the vertical axis is labeled x2. A region bounded by a series of connected line segments, and several horizontal lines are on the graph.
The series of line segments connect the approximate points (0, 4), (3.889, 1.778), and (5, 0).
The region is above the horizontal axis, to the right of the vertical axis, and below the line segments.
At each integer value between 0 and 4 on the vertical axis, a horizontal line extends out from the vertical axis to the series of connect line segments.
On the coordinate plane the horizontal axis is labeled x1 and the vertical axis is labeled x2. A region bounded by a series of connected line segments, and several…
Consider the nonlinear optimization model stated below.
Min
s.t.
2x²-18x + 2XY + y² - 14Y + 53
x + 4Y ≤ 8
(a) Find the minimum solution to this problem.
|at (X, Y) =
(b) If the right-hand side of the constraint is increased from 8 to 9, how much do you expect the objective function to change?
Based on the dual value on the constraint X + 4Y ≤ 8, we expect the optimal objective function value to decrease by
(c) Resolve the problem with a new right-hand side of the constraint of 9. How does the actual change compare with your estimate?
If we resolve the problem with a new right-hand-side of 9 the new optimal objective function value is|
, so the actual change is a decrease of
rather than what we expected in part (b).
Chapter 8 Solutions
DIFFERENTIAL EQUATIONS-NEXTGEN WILEYPLUS
Ch. 8.1 - In each of Problems 1 through 4 :
Find approximate...Ch. 8.1 - In each of Problems 1 through 4 :
Find approximate...Ch. 8.1 - In each of Problems 1 through 4: a) Find...Ch. 8.1 - In each of Problems 1 through 4 :
Find approximate...Ch. 8.1 - In each of Problems 5 through 10 , draw a...Ch. 8.1 - In each of Problems 5 through 10, draw a direction...Ch. 8.1 - In each of Problems 5 through 10, draw a direction...Ch. 8.1 - In each of Problems 5 through 10, draw a direction...Ch. 8.1 - In each of Problems 5 through 10 , draw a...Ch. 8.1 - In each of Problems 5 through 10, draw a direction...
Ch. 8.1 - In each of Problems 11 through 14 , use Eular’s...Ch. 8.1 - In each of Problems 11 through 14 , use Eular’s...Ch. 8.1 - In each of Problems 11 through 14 , use Eular’s...Ch. 8.1 - In each of Problems 11 through 14 , use Eular’s...Ch. 8.1 - Consider the initial value problem...Ch. 8.1 - Consider the initial value problem
Use Euler’s...Ch. 8.1 - Consider the initial value problem...Ch. 8.1 - Consider the initial value problem
Where is a...Ch. 8.1 - Consider the initial value problem y=y2t2,y(0)=,...Ch. 8.2 - In each of Problem 1 through 6, find approximate...Ch. 8.2 - In each of Problem 1 through 6, find approximate...Ch. 8.2 - In each of Problem 1 through 6, find approximate...Ch. 8.2 - In each of Problem 1 through 6, find approximate...Ch. 8.2 - In each of Problem 1 through 6, find approximate...Ch. 8.2 - In each of Problem 1 through 6, find approximate...Ch. 8.2 - In each of Problem 7 through 12, find approximate...Ch. 8.2 - In each of Problem 7 through 12, find approximate...Ch. 8.2 - In each of Problem 7 through 12, find approximate...Ch. 8.2 - In each of Problem 7 through 12, find approximate...Ch. 8.2 - In each of Problem 7 through 12, find approximate...Ch. 8.2 - In each of Problem 7 through 12, find approximate...Ch. 8.2 - Complete the calculations leading to the entries...Ch. 8.2 - Using three terms in the Taylor series given in...Ch. 8.2 - In each of Problems 15 and 16, estimate the local...Ch. 8.2 - In each of Problems 15 and 16, estimate the local...Ch. 8.2 - In each of Problems 17 and 20, obtain a formula...Ch. 8.2 - In each of Problems 17 and 20, obtain a formula...Ch. 8.2 - In each of Problems 17 and 20, obtain a formula...Ch. 8.2 - In each of Problems 17 and 20, obtain a formula...Ch. 8.2 - Consider the initial value problem y=cos5t,y(0)=1....Ch. 8.2 - Using a step size h=0.05 and the Euler method,...Ch. 8.2 - The following problem illustrates a danger that...Ch. 8.2 - The distributive law a(bc)=abac does not hold, in...Ch. 8.2 - In this section we stated that the global...Ch. 8.3 - In each of Problem 1 through 6, find approximate...Ch. 8.3 - In each of Problem 1 through 6, find approximate...Ch. 8.3 - In each of Problem 1 through 6, find approximate...Ch. 8.3 - In each of Problem 1 through 6, find approximate...Ch. 8.3 - In each of Problem 1 through 6, find approximate...Ch. 8.3 - In each of Problem 1 through 6, find approximate...Ch. 8.3 - In each of Problem 7 through 12, find approximate...Ch. 8.3 - In each of Problem 7 through 12, find approximate...Ch. 8.3 - In each of Problem 7 through 12, find approximate...Ch. 8.3 - In each of Problem 7 through 12, find approximate...Ch. 8.3 - In each of Problem 7 through 12, find approximate...Ch. 8.3 - In each of Problem 7 through 12, find approximate...Ch. 8.3 - Complete the calculation leading to the entries in...Ch. 8.3 - Confirm the results in Table 8.3.2 by executing...Ch. 8.3 - Consider the initial value problem y=t2+y2,y(0)=1....Ch. 8.3 - Consider the initial value problem
Draw a...Ch. 8.3 - In this problem, we establish that the local...Ch. 8.3 - Consider the improved Euler method for solving the...Ch. 8.3 - In each of Problems 19 and 20, use the actual...Ch. 8.3 - In each of Problems 19 and 20, use the actual...Ch. 8.3 - In each of Problems 21 through 24, carry out one...Ch. 8.3 - In each of Problems 21 through 24, carry out one...Ch. 8.3 - In each of Problems 21 through 24, carry out one...Ch. 8.3 - In each of Problems 21 through 24, carry out one...Ch. 8.4 - In each of Problems 1 through 6, determine...Ch. 8.4 - In each of Problems 1 through 6, determine...Ch. 8.4 - In each of Problems 1 through 6, determine...Ch. 8.4 - In each of Problems 1 through 6, determine...Ch. 8.4 - In each of Problems 1 through 6, determine...Ch. 8.4 - In each of Problems 1 through 6, determine...Ch. 8.4 - Consider the example problemwith the initial...Ch. 8.4 - Consider the initial value problem...Ch. 8.P1 - Assume that the shape of the dispensers are...Ch. 8.P1 - After viewing the results of her computer...Ch. 8.P2 - Show that Euler’s method applied to the...Ch. 8.P2 - Simulate five sample trajectories of Eq. (1) for...Ch. 8.P2 - Use the differential equation (4) to generate an...Ch. 8.P2 - Variance Reduction by Antithetic Variates. A...
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