5. Given the equation xy = Arctan(ye*) where z is a function of a and y, Əz əz find and ar ду
5. Given the equation xy = Arctan(ye*) where z is a function of a and y, Əz əz find and ar ду
Algebra & Trigonometry with Analytic Geometry
13th Edition
ISBN:9781133382119
Author:Swokowski
Publisher:Swokowski
Chapter5: Inverse, Exponential, And Logarithmic Functions
Section5.1: Inverse Functions
Problem 56E
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Question
5 handwritten
![1. 5pts Consider the function defined by
h(x, y) = √ye.
(a) Find the domain and range of h.
(b) Draw a contour map of h for k= -1,0, 1, e.
(c) Using part (b), sketch the graph of h
2
Let function g be given by
Y
g(x, y) = = COS
(TEVE)
In(x - e)
0³g
Determine
əyəxəy
Let f(x, y) =exy and a point P(1,0)
a. Solve for the gradient of f at the point P.
b. Find the maximum and minimum rates of change of f at the point P. Then find the
direction at which these rates occur.
c. Determine the directional derivative of f at the point P in the direction of (2, 1).
Give an interpretation of the derivative obtained as a rate of change.
4.
Consider the surface x² + y² - 2xy-x+3y-z = -4 at the point A(2, -3, 18).
Determine the following:
a. the general equation of the tangent plane to the surface at A.
b. the parametric equations of the normal line to the surface at A.
5.
Given the equation xy = Arctan(ye*) where z is a function of x and y,
Əz əz
ar ду
find and
6. [
] Determine all the relative minimum and maximum values, and saddle points
(if any) of the function T defined by
T(x, y) = x² - y² + 6x - 8y + 25.
7.
Use Lagrange Multipliers to solve the following:
= 4x² + 2y² + 5
Maximize L(x, y)
subject to x² + y² = 2y.
3.
+](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fdc159504-9343-4a0c-9fca-456418f39780%2Fe9550947-d39b-4a3f-a60b-f561a4768f91%2Fbo57ma_processed.jpeg&w=3840&q=75)
Transcribed Image Text:1. 5pts Consider the function defined by
h(x, y) = √ye.
(a) Find the domain and range of h.
(b) Draw a contour map of h for k= -1,0, 1, e.
(c) Using part (b), sketch the graph of h
2
Let function g be given by
Y
g(x, y) = = COS
(TEVE)
In(x - e)
0³g
Determine
əyəxəy
Let f(x, y) =exy and a point P(1,0)
a. Solve for the gradient of f at the point P.
b. Find the maximum and minimum rates of change of f at the point P. Then find the
direction at which these rates occur.
c. Determine the directional derivative of f at the point P in the direction of (2, 1).
Give an interpretation of the derivative obtained as a rate of change.
4.
Consider the surface x² + y² - 2xy-x+3y-z = -4 at the point A(2, -3, 18).
Determine the following:
a. the general equation of the tangent plane to the surface at A.
b. the parametric equations of the normal line to the surface at A.
5.
Given the equation xy = Arctan(ye*) where z is a function of x and y,
Əz əz
ar ду
find and
6. [
] Determine all the relative minimum and maximum values, and saddle points
(if any) of the function T defined by
T(x, y) = x² - y² + 6x - 8y + 25.
7.
Use Lagrange Multipliers to solve the following:
= 4x² + 2y² + 5
Maximize L(x, y)
subject to x² + y² = 2y.
3.
+
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