Please help me with this. Please check if I've gotten the write answer for each questions. And if I have shown the correct steps

Image 1: The question

Image 2: My work

 

Transcribed Image Text:

Suppose vector i =[-3,4,-6) and originates at point A at (1,5,-3) and terminates at point B at (3,6,9) a. Find vector and write it in both ordered pair and unit vector notation b. Find a normal to vectors and c. Find a unit vector that is the same magnitude as the normal you obtained in question 2, part b. Use the dot product to verify that the normal you obtained in question 2, part b is orthogonal to both vectors i and d. e. Suppose vectors i and are both direction vectors in a plane that also contains the point (2,-4,7). Determine: L A vector equation for the plane Parametric equations for the plane A scalar equation for the plane

Transcribed Image Text:

QUESTION # 2: Cliven that, J = [-3, 4, -6] c) (ordered pair notation) [Using part 6) n U = 2₁ + Ĵ + 12 K (unit vector notation) Verifying ʼn is orthogonal to t a) So, V = [2, 1, 12], J j b) R² = √ x ✓ R= AI V = [3-1, 6-5₁ 9 +3] V = [2₁1, 12] F(x -3 4 K -6 2 1 121 R² = 1 (48 +6) - J (-36 +12) + K (-3-8) 7² = 54₁ +249-11 R to Let - (54, 24, -117 J (54) ² + (24) ² + (-11)² = 254, 24, -117 √2916 +576 + 121 =<54, 24, -117 33613 03613 (441249-11K) ñ·ū = [54, 24, -11], [-3, 4, -6] = -162 +96 +66 = 0 Verifying in is orthogonal to n⋅V = CS4, 24, -11]. [2, 1, 12] = 105 + 24 - 132 e) Planc contains (2, +4,7) normal (n) = [$4, 24, -11] Vector Equation [R-(21-43₁.7K)]. [54₁ +245 -11 K] = 0 =e Pargmetric, equation U= [-3₁4₁-6] V= [211, 12] x = 2 - 3£1+ 2+2 y = = 4 +4€2+€₂ 2-7 -6€₁ + 12 € ₂ Scolar Equation 54 (x-2) ₁24 (y + 4) - 11 (2-7)=0 54x + 24y - 112 + 65 = 6