5] (2) Consider the function f: R²R, f(x, y) = x² - 2xy + 2y² Determine Vf. (2, 2). GIVEN: The point Po Determine the directional derivative of f at P, in the direction of (2,1) and the vector a =

use the first image attached as reference/example to do the calculations for the second image attached

Transcribed Image Text:

[15] (2) a) b) c) Consider the function f:R²R, f(x, y) = Determine Vf. d) x² - 4xy + y² 3 ⇒ Vƒ = (4x³. 4y, - 4x + 4y³) GIVEN: The point Po= (2,1) and the vector a = (1,2). Determine the directional derivative of f at Po in the direction of a. :. [D_.f|(2,1) = 4(7,-1)• (1,2) – 4-5 - 4√5′ = 3 Vf = 4(x²-y, -x + y ³) ⇒Vƒ (2,1) = 4(7, -1) Consider the point Po = (2,1) Determine the maximum value of the directional derivative at Po. MAX Df | (2, 1) = || 4 (7,-1)|| = 4 ||(7,-1) || +√√50 = 2012 = At the point P = (2,1), is there a direction so that the directional derivative is 9√5? (box correct answer) YES NO -20√2 <9√5 ≤ 20√2

Transcribed Image Text:

[15] (2) Consider the function ƒ: R² → R, ƒ(x, y) = x² − 2xy + 2y² Determine Vf. a) b) c) d) GIVEN: The point Po (2,1) and the vector a = Determine the directional derivative of f at P, in the direction of a. = a = (2, 2). Consider the point Po (2,1) Determine the maximum value of the directional derivative at Po. = = At the point Po (2,1), is there a direction so that the directional derivative is 3? YES NO (box correct answer)