causes increase in particle concentration but the
surface area remains same; hence causing higher
reflectance at lower turbidity values then in
higher values of turbidity is (seen in fig.2)
From Fig.2, we see that for better discerna-
bility of water quality, channel 4 and 5 (i.e.
0.5 - 0.6 m; 0,6 - 0.7 m are preferred).
From Fig.h it can be seen that 11 channel
scanner band nos. 2,4,8 and 9 are more useful in
detecting different turbidity levels.
From figs.5-7 it is established that the dilution
of pollution concentration in a flowing water body
can be detected using Multispectral Scanner data.
Fig.8-11 show that the water absorbs light expo-
nentially. This is in confirmation with the theory.
Fig.12 shows that the Extinction ddpth varies
linearly with the turbidity. The few anamolies found
in these data are due to the experimental limitations.
Fig.13-14 show the esatellite band ratio values
versus turbidity values.
Fig.15 shows Multispectral Scanner band ratio
versus turbidity values.
Fig. 16-19 show the radiance of a white plate
immersed at various depths in waters of different
turbidity values drawn on a semi-log graph sheet.
The straight lines obtained further prove the ex-
ponential nature of absorption of light. Further
