Given :
Nozzle velocity of the defense cannon, u = 85 m/s
Distance between the defense cannon and the enemy ship, d = 575 m
The cannon will execute a projectile motion and hit the enemy ship
Thus, Distance between the defense cannon and the enemy ship = Horizontal range of the cannon
We know that the horizontal range is given by
R =
... (i)
⇒ sin (2θ) =
⇒ θ =
×sin−1() ⇒ θ =
×sin−1[] ⇒ θ =
×sin−1(0.78) Using
sin−1 0.78 = 51.26° , we get
θ =
× 51.26°
⇒ θ = 25.63°
Now, re-writing eq (i) as
R =
=
[as sin (2θ) = 2 sin θ cos θ]
If we change θ to "90° - θ" we have
R' =
⇒ R' =
=
= R
i.e., range remains the same
Therefore, the corresponding angles for the cannon are 25.63° and 90° - 25.63° = 64.37°
The commandant of the fort can elevate the gun to either if the two angles and hit the enemy ship
Hence, option 'C' is correct