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If a person A is moving with velocity 2 km/h, person B is moving with velocity 3 km/h and the angle between the direction of movements of A and B is 60°, then the velocity of A relative to B in the direction of A is

$\sqrt{13 - 6 \sqrt{3}}$
$\sqrt{13 + 6 \sqrt{3}}$
$\sqrt{7}$
$\sqrt{19}$

272.

The intersection angle of the curve xy = a² and x² - y² = a² is

$\frac{π}{3}$
$\frac{π}{6}$
$\frac{π}{2}$
$\frac{5 π}{6}$

273.

The point of intersection of line $\frac{x - 6}{- 1} = \frac{y + 1}{0} = \frac{z + 3}{4}$ and plane x + y - z = 3 is

(2, 1, 0)
(7, - 1, - 7)
(1, 2, - 6)
(5, - 1, 1)

274.

A particle is thrown with the velocity v with the angle a from the horizontal plane and its range on the horizontal plane is twice to themaximum height gained. Then, $\tan (α)$ is equal to

275.

The points 0, 2 + 3i, i - 2 - 2i in the argand plane are the vertices of a

rectangle
rhombus
trapezium
parallelogram

276.

If the resultant of two forces of magnitude P and P $\sqrt{3}$ acting on a particle is of magnitude P, then the angle between them is

60°
120°
90°
150°

277.
A particle is dropped from a height 12 g metre and 4 s after anotherparticle is projected from the ground towards it with a velocity 4g ms. The time after which the second particle meets first is

4 s

2 s

$\frac{1}{2} s$

1 s

$\frac{1}{2} s$

First particle cover the distance in 4 s.

$s = ut + \frac{1}{2} {gt}^{2} \Rightarrow s = 0 + \frac{1}{2} \times g \times 4^{2} \Rightarrow s = 8 g Remaining distance = 12 g - 8 g = 4 g metre After 4 s velocity of first particle, v = u + gt = 0 + g \times 4 = 4 g {ms}^{- 1} Let after t second of second particle, they meet together . In t second, first particle covers a distance s = ut + \frac{1}{2} {gt}^{2} ∴ s_{1} = 4 t + \frac{1}{2} {gt}^{2} [∵ u = 4 g] Since, s_{1} + s_{2} = 4 g ∴ 4 gt + \frac{1}{2} {gt}^{2} + 4 gt - \frac{1}{2} {gt}^{2} = 4 g \Rightarrow 8 gt = 4 g \Rightarrow t = \frac{1}{2} s$

278.

A uniform ladder rests in limiting equilibrium with its lower end on a rough horizontal plane with coefficient of friction µ and its upper end against a smooth vertical wall. If $θ$ is the inclination of the ladder with the wall, then $θ$ is equal to

$\tan^{- 1} (u)$
$\cot^{- 1} (u)$
$\cot^{- 1} (2 u)$
$\tan^{- 1} (2 u)$

279.

A plane which passes through the point (3, 2, 0) and the line $\frac{x - 3}{1} = \frac{y - 6}{5} = \frac{3 - 4}{4}$ is

x - y + z = 1
x + y + z = 5
x + 2y - z = 0
2x - y + z = 5

280.

If the planes x + 2y + kz = 0 and 2x + y - 2z = 0, are at right angles, then the value of k is

2
- 2
$\frac{1}{2}$
$- \frac{1}{2}$

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Three Dimensional Geometry

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277.
A particle is dropped from a height 12 g metre and 4 s after anotherparticle is projected from the ground towards it with a velocity 4g ms. The time after which the second particle meets first is

4 s

2 s

$\frac{1}{2} s$

1 s

Previous Year Papers

Test Series

Test Yourself

Multiple Choice Questions

277. A particle is dropped from a height 12 g metre and 4 s after anotherparticle is projected from the ground towards it with a velocity 4g ms. The time after which the second particle meets first is 4 s 2 s 12 s 1 s

277.
A particle is dropped from a height 12 g metre and 4 s after anotherparticle is projected from the ground towards it with a velocity 4g ms. The time after which the second particle meets first is

4 s

2 s

$\frac{1}{2} s$

1 s