TS EAMCET · Maths · Three Dimensional Geometry
Let \(\mathrm{L}\) be a line passing through the points \(2 \bar{i}+3 \bar{j}+8 \bar{k}\) and \(\bar{i}+6 \bar{j}+4 \bar{k}\). Let \(\mathrm{P}\) be a plane passing through \(-5 \bar{i}+19 \bar{j}-14 \bar{k}\) and parallel to the vectors \(\bar{i}-\bar{j}+\bar{k}\) and \(\bar{i}-2 \bar{j}+3 \bar{k}\). If \(\mathrm{L}\) meets the plane \(\mathrm{P}\) at a point \(\mathrm{A}\), then the position vector of \(\mathrm{A}\), is
- A \(-\bar{i}-12 \bar{j}+4 \bar{k}\)
- B \(-\bar{i}+12 \bar{j}-4 \bar{k}\)
- C \(\bar{i}-12 \bar{j}-4 \bar{k}\)
- D \(\bar{i}+12 \bar{j}+4 \bar{k}\)
Answer & Solution
Correct Answer
(B) \(-\bar{i}+12 \bar{j}-4 \bar{k}\)
Step-by-step Solution
Detailed explanation
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