Can you help with question 5? Item (15) is attached for reference. 60トCHAPTER 3 I STATIC OPTIMIZATION5. (a) Solve the problem max 1 – rx² – y² subject to x + y = m, with r > 0.:-(b) Find the value function ƒ*(r, m), compute af*/ar and af*/@m and verify (15).SM 6. (a) Solve the problemmax x² + y² +z? subject to x² + y? + 4z² =1 and x+3y + 2z = 0(b) Suppose we change the first constraint to x² + y? + 4z² = 1.05 and the second constraintto x+3y +2z = 0.05. Estimate the corresponding change in the value function.7. (a) In Example 4 let U (x) = L=1 aj In(x; – aj), where aj, aj, Pj, and m are all positiveconstants with £-i ¤j = 1, and with m > Li=1 Pia¡. Show that if x* solves problem(16), then the expenditure on good j is the following linear function of prices and incomeUNJearnings.csv2021S QF202 quiz w.RRemovedprt scトト114%244.9.08. Envelope ResultConsider the following version of the general Lagrange problem (1):max f(x, r) subject to gj(x, r) = 0, j= 1, ., m(13)where x = (x1,..., Xn) and r = (r1, ., rk) is a vector of parameters. Note that we canabsorb each constant b; in (1) by including it as a component of the parameter vector r andby including a term -b; in the corresponding function g¡(x, r). If we put g = (g1, ..., gm),the m constraints can then be written as a vector equality, g(x, r) = 0. Note that in problem(13) we maximize w.r.t. x, with r held constant.The value function for problem (13) isf*(r) = max{ f(x, r) : g(x, r) = 0}(14)Let the Lagrangian be defined asL(x, r) = f(x, r) –E^18;(x, r)We want to find an expression for af*(r)/ar¡ at a given point F, assuming there is a uniqueoptimal choice x*(F) for x. Let 1, . ., àm be the associated Lagrange multipliers. Undercertain conditions (see Theorem 3.10.4), we also have the following relationship:ENVELOPE RESULTL (x, r)'(1).fei = 1, ., k(15)(4),x==1/JNJearnings.csv.RRemoved

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Description: Can you help with question 5? Item (15) is attached for reference. 60トCHAPTER 3 I STATIC OPTIMIZATION5. (a) Solve the problem max 1 – rx² – y² subject to x + y = m, with r > 0.:-(b) Find the value function ƒ*(r, m), compute af*/ar and af*/@m and veri

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5. (a) Solve the problem max 1-rx² - y? subject to x+y m, with r > 0. (b) Find the value function f"(r, m), compute af"/ar and af"/am and verify (15). SM6. (a) Solve the problem max x + y? + z? subject to x + y² +4z? = 1 and x+3y+2z = 0

5. (a) Solve the problem max 1-rx² - y? subject to x+y m, with r > 0. (b) Find the value function f"(r, m), compute af"/ar and af"/am and verify (15). SM6. (a) Solve the problem max x + y? + z? subject to x + y² +4z? = 1 and x+3y+2z = 0

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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Concept explainers

Addition Rule of Probability

It simply refers to the likelihood of an event taking place whenever the occurrence of an event is uncertain. The probability of a single event can be calculated by dividing the number of successful trials of that event by the total number of trials.

Expected Value

When a large number of trials are performed for any random variable ‘X’, the predicted result is most likely the mean of all the outcomes for the random variable and it is known as expected value also known as expectation. The expected value, also known as the expectation, is denoted by: E(X).

Probability Distributions

Understanding probability is necessary to know the probability distributions. In statistics, probability is how the uncertainty of an event is measured. This event can be anything. The most common examples include tossing a coin, rolling a die, or choosing a card. Each of these events has multiple possibilities. Every such possibility is measured with the help of probability. To be more precise, the probability is used for calculating the occurrence of events that may or may not happen. Probability does not give sure results. Unless the probability of any event is 1, the different outcomes may or may not happen in real life, regardless of how less or how more their probability is.

Basic Probability

The simple definition of probability it is a chance of the occurrence of an event. It is defined in numerical form and the probability value is between 0 to 1. The probability value 0 indicates that there is no chance of that event occurring and the probability value 1 indicates that the event will occur. Sum of the probability value must be 1. The probability value is never a negative number. If it happens, then recheck the calculation.

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Can you help with question 5? Item (15) is attached for reference.

60
ト
CHAPTER 3 I STATIC OPTIMIZATION
5. (a) Solve the problem max 1 – rx² – y² subject to x + y = m, with r > 0.
:-
(b) Find the value function ƒ*(r, m), compute af*/ar and af*/@m and verify (15).
SM 6. (a) Solve the problem
max x² + y² +z? subject to x² + y? + 4z² =1 and x+3y + 2z = 0
(b) Suppose we change the first constraint to x² + y? + 4z² = 1.05 and the second constraint
to x+3y +2z = 0.05. Estimate the corresponding change in the value function.
7. (a) In Example 4 let U (x) = L=1 aj In(x; – aj), where aj, aj, Pj, and m are all positive
constants with £-i ¤j = 1, and with m > Li=1 Pia¡. Show that if x* solves problem
(16), then the expenditure on good j is the following linear function of prices and income
UNJearnings.csv
2021S QF202 quiz w.R
Removed
prt sc
トト
114
%24
4.
9.
08.

Envelope Result
Consider the following version of the general Lagrange problem (1):
max f(x, r) subject to gj(x, r) = 0, j= 1, ., m
(13)
where x = (x1,..., Xn) and r = (r1, ., rk) is a vector of parameters. Note that we can
absorb each constant b; in (1) by including it as a component of the parameter vector r and
by including a term -b; in the corresponding function g¡(x, r). If we put g = (g1, ..., gm),
the m constraints can then be written as a vector equality, g(x, r) = 0. Note that in problem
(13) we maximize w.r.t. x, with r held constant.
The value function for problem (13) is
f*(r) = max{ f(x, r) : g(x, r) = 0}
(14)
Let the Lagrangian be defined as
L(x, r) = f(x, r) –E^18;(x, r)
We want to find an expression for af*(r)/ar¡ at a given point F, assuming there is a unique
optimal choice x*(F) for x. Let 1, . ., àm be the associated Lagrange multipliers. Under
certain conditions (see Theorem 3.10.4), we also have the following relationship:
ENVELOPE RESULT
L (x, r)'
(1).fe
i = 1, ., k
(15)
(4),x==1/
JNJearnings.csv
.R
Removed

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