Consider a pyramid OPQRS located in the first octant (x≥0,y≥0,z≥0) with O as origin, and OP and OR along the X-axis and the Y-axis, respectively. The base OPQR of the pyramid is a square with OP = 3. The point S is directly above the mid-point T of diagonal OQ such that TS = 3. Then.
the perpendicular distance from O to the straight line containing RS is √152
Given, square base OP=OR=3
∴P(3,0,0),R=(0,3,0)
Also, mid-point of OQ is T(32,32,0)
Since, S is derectly above the mid-point T of diagonal OQ and ST = 3.
i.e.~~~s(32,32,3)
Here, DR's of OQ (3, 3, 0) and DR's of OS(32,32,3).
∴ cos θ=92+92√9+9+0√94+94+9=9√18.√272=1√3
∴Option (a) isincorrect.
Now, equation of the plane containing the ΔOQS is
∣∣
∣
∣∣x y z3 3 032 32 3∣∣
∣
∣∣=0⇒∣∣
∣∣x y z1 1 01 1 2∣∣
∣∣=0⇒x(2−0)−y(2−0)+z(1−1)=0⇒2x−2y=0 or x−y=0∴ Option (b) is correct
Now, length of the perpendicular from P(3, 0, 0) to the plane containing
ΔOQS is
|3−0|√1+1=3√2
∴ Option (c) is correct.
Here, equation of RS is
x−032=y−3−32=z−03=λ⇒ x=32λ, y=−32λ+3,z=3λ
To find the distance from O(0, 0, 0) to RS.
Let M be the foot of perpendicular.
∵ ¯OM∠¯RS⇒¯OM.¯RS=0⇒9λ4−32(3−3λ2)+3(3λ)=0⇒λ=13∴M(12,52,1)⇒OM=√14+254+1=√304=√152∴ Option (d) is correct.