Let a, b and c be three non-coplanar vectors and let p, q and r b

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 Multiple Choice QuestionsMultiple Choice Questions

451.

A class has fifteen boys and five girls.Suppose three students are selected at random from the class. The probability that there are two boys and one girl is

  • 3576

  • 3538

  • 776

  • 3572


452.

a = i + j - 2k  a × i × j2 = ?

  • 6

  • 6

  • 36

  • 66


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453.

Let a, b and c be three non-coplanar vectors and let p, q and r be the vectors defined by

p = b × cabc, q = c × aabc,  r = a × babc Then,a + b . p + b + c . q + c + a . r = ?

  • 0

  • 1

  • 2

  • 3


D.

3

Given, p = b × cabc, q = c × aabc,  r = a × babcNow,  a + b . p = a + b . b × cabc= abcabc + bbcabc= 1 + 0= 1Similarly,  b + c . q  = 1and            c + a . r = 1a + b . p + b + c . q + c + a . r = 1 + 1 +1 = 3


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454.

Let a = i + 2j + k, b = i - j + k, c = i + j - k.

A vector in the plane of a and b has projection 13 on c. Then, one such vector is

  • 4i + j - 4k

  • 3i + j - 3k

  • 4i - j + 4k

  • 2i + j + 2k


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455.

The point if intersection of the lines

l1 : r(t) = (i - 6j + 2k) + t(i + 2j + k)

l: R(u) = (4j + k) + u(2i + j + 2k) is

  • (10, 12, 11)

  • (4, 4, 5)

  • (6, 4, 7)

  • (8, 8, 9)


456.

The vectors AB = 3i - 2j + 2k and BC = i - 2k are the adjacent sides of a parallelogram. The angle between its diagonals is

  • π2

  • π3 or 2π3

  • 3π4 or π4

  • None of these


457.

The points whose position vectors are 2i + 3j + 4k, 3i + 4j + 2k and 4i + 2j + 3k are the vertices of

  • an isosceles triangle

  • Right angled triangle

  • Equilateral triangle

  • Right angled isosceles triangle


458.

P, Q, R and S are four pots with the position vectors 3i - 4j + 5k, - 4i + 5j + k and - 3i + 4j + 3k respectively. Then, the line PQ meets the line RS at the point

  • 3i + 4j + 3k

  • - 3i + 4j + 3k

  • - i + 4j + k

  • i + j + k


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459.

If a  0, b  0, c  0, a × b = 0 and b × c = 0, then a × c = ?

  • b

  • a

  • 0

  • i + j + k


460.

The shortest distance between r = 3i + 5j + 7k + λ(i + 2j + k) and r = - i - j - k + μ(7i - 6j + k) is

  • 1655

  • 2655

  • 3655

  • 4655


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