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(D) Let $M$ be the foot of the perpendicular from $P(7, 14, 5)$ to the given plane $2x + 4y - z = 2$. The line $PM$ is normal to the plane,so its dire

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$3\sqrt{21}, (1, 2, 8)$

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(D) Let $M$ be the foot of the perpendicular from $P(7, 14, 5)$ to the given plane $2x + 4y - z = 2$. The line $PM$ is normal to the plane,so its direction ratios are $(2, 4, -1)$.The equation of line $PM$ passing through $(7, 14, 5)$ is $\frac{x - 7}{2} = \frac{y - 14}{4} = \frac{z - 5}{-1} = r$.Any point on this line is $M(2r + 7, 4r + 14, -r + 5)$.Since $M$ lies on the plane $2x + 4y - z = 2$,we have:$2(2r + 7) + 4(4r + 14) - (-r + 5) = 2$$4r + 14 + 16r + 56 + r - 5 = 2$$21r + 65 = 2$$21r = -63$$r = -3$Substituting $r = -3$ into the coordinates of $M$:$x = 2(-3) + 7 = 1$$y = 4(-3) + 14 = 2$$z = -(-3) + 5 = 8$So,the foot of the perpendicular is $M(1, 2, 8)$.The length of the perpendicular $PM$ is the distance between $(7, 14, 5)$ and $(1, 2, 8)$:$PM = \sqrt{(1 - 7)^2 + (2 - 14)^2 + (8 - 5)^2}$$PM = \sqrt{(-6)^2 + (-12)^2 + (3)^2}$$PM = \sqrt{36 + 144 + 9} = \sqrt{189} = \sqrt{9 	imes 21} = 3\sqrt{21}$.Thus,the length is $3\sqrt{21}$ and the foot is $(1, 2, 8)$.

The length and foot of the perpendicular from the point $(7, 14, 5)$ to the plane $2x + 4y - z = 2$ are

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