Chapter 19 : Relative Velocity 415
Solution. Given : Velocity of ship A = 12 km.p.h. (North) ; Velocity of ship B = 20 km.p.h.
(North-East) ; Distance between the ships at midnight = 40 km and vision distance = 10 km
Fig 19.17.
First of all, let us draw the actual velocity diagram of the two ships A and B as shown in Fig. 19.17
(a). Now draw the relative velocity diagram as shown in Fig. 19.17 (b) and as discussed below :
- First of all, draw a line XL towards North representing the actual direction of motion of
the ship A with a velocity of 12 km.p.h. - Now cut off XM equal to 12 km to some suitable scale towards South i.e. on the opposite
direction of the actual motion of the ship A. - Now cut off XN equal to 20 km to the scale towards North-East, which represents the
actual velocity of the ship B. - Complete the parallelogram XMRN with XM and XN as adjacent sides.
- Join XR, which gives the magnitude and direction of the relative velocity. By measurement,
we find that XR = 14.3 km.p.h.
Now draw the exchange of signal diagram for the two ships with the help of their relative
velocity diagram as shown in Fig. 19.18 and as discussed below :
Fig. 19.18. Exchange of signal diagram- First of all, draw the relative velocity diagram and the parallelogram XMRN as discussed
above, and extend the line XR to T. - At midnight, let the ship A be at X. Therefore the ship B will be 40 km towards East. So
mark XQ equal to 40 km to some scale, which represents the position of the ship B at
midnight. - With Q as centre and radius equal to 10 km to the scale (i.e.vision distance) draw an arc
meeting the relative velocity line at P 1 and P 2. By measurement, we find that XP 1 = 31.5
km and XP 2 = 47.5 km. - Thus the two ships start signalling from
31.5
2.20
14.3
= hours to47.5
3.32
14.3= hours after
midnight. Therefore the two ships will continue signalling for 3.32 – 2.20 = 1.12 hour
= 1 hour 7 min 12 sec. Ans.