Suppose you are climbing a hill whose shape is given by the equation z=1000-0

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Answered question

2021-10-28

Suppose you are climbing a hill whose shape is given by the equation z=10000.005x20.01y2, where x,y and z are measured in meters, and you are standing at a point with coordinates . The positive x-axis points east and the positive y-axis points north. If you walk due south, will you start to ascend or descend? At what rate?

Answer & Explanation

Aamina Herring

Aamina Herring

Skilled2021-10-29Added 85 answers

Step 1
We are given f(x,y)=10000.005x20.01y2; P=(60,40);
We got to find the directional derivative of the function f at point P along υ.
Through equation 9, we know that
Duf(x,y)=f(x,y)u where u is a unit vector in the direction of v
Now since we are moving due south, the direction of the vector shall be υ=0ij.
Hence u=v|v|=11[0,1]
The gradient of f is given by:
f(x,y)=[fx(x,y),fy(x,y)]
Hence in this case fx(x,y)=0.01x;fy(x,y)=0.02y
(x,y)=[0.01x,0.02y]
After substituting the values of Point P,
(60,40)=[0.6,0.8]
Hence from the equation 9, we can write
Duf(60,40)=[0.6,0.8]d11[0,1]
Duf(60,40)=0+0.8=0.8
Now since Duf>0, we shall move uphill as we move south.
Answer
A walk due south from (60,40,966) is uphill at the rate of 0.8 m per meter of travel.

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