55 
50 
45 
40 
35 
30 
25 
20 
15 
10 
ORO OOOO OMO MOM OOS 0s OO mol 0m0 
OO MO SOS ONO Os Sis SmS 5 mr4manit 
OOOO Om ORS mSaeSas5i4a4 
CODE 
MANNING’S 
RANGE OF 
ELEVATIONS 
OO MOM ORO M0000 0l0 0510 Om ON OO me OO Om Om ORO ORO On 0) 
1 
2 
3 
4 
5 
6 
7 
8 
9 
10 
V1 
1 
OO OL OO OmsO mn OMOMON0 
ORO OR OO OOF 007050 
OU ORO Os O0 Ol0 00020 
Nea = 22) oie Ont Ol Ol 10) 1050/5 10)80 
1 
1 
ONO MOM OMS 0 OOOO On OmOK-Si-3 
OM OOO OOM OS Os OO ROOM ROIs 
0/10) 10) 010) 10) (0-0) (0) 0) <0) 50) 00m 0F-4 
OF 00S 00 OMOn ORO 0s Os 0m:0 
1 
1 
Ops OO Oles Ole Os One Ol SiG a- Gia: 
0000000 5 4-4 -4 
OR OM OR OR OR ORs OS c- 5-4) 
Oo OS000 O-0 8 
OOS Of Ont One OlOle5 
1 
2 
3 
4 
0.023 
0.025 
0.028 
0.035 
0.040 
0.030 
-35 to -5 ft 
1 
-5 to -1 ft 
1 
-1 to 1 ft 
50) 0) 50570810) 50 
1 
1 
1 
1 
OOM Oke Ol One 0) OOmn0l0 030m Ole Olen Oke5: 
ONO Si ONO OOO) 00s OOM On 0) Om 0h Om On Ole 5 
OM ONS = 4 550 Ol 0 ee Os On Ons OOO cs OOM ORR OlE5 
O10) 52-3. 65.55 0-5) Si Ob 022010 OlsOmOm Ons ONsO-kOmn5, 
0000000000000 0 
1 
lat omesitit 
5 to 20 ft 
Constriction 
On0 0 0N50 
ORO OR ORO) 
1 
1 
1 
1 
1 
1 
1 
1 
5 
uv 
1 
1 
1 
1 
1 
OS 5)| = 21-4 Ske 3-5 Ol Olen Ons O nO On Ole Om Ule Ot S a5, 
Op iO 0: On Oh Oka Ole Olu Os On Olt Oe Ol Oe Ol Sa Sa Om, 
Op Sx=5))=20-25-1 
OMS ORs OP OOO) 5205) 
OS ON Oe 5a Ser5ae5 
115 00 0 
ij 0 000 
1 
1 
1 
1 
1 
OP OMO} {ONO Ol O SOOM OM 0 ORO ROM ORs OM Om Oh 5a 5 ec5be5, 
5S OlNO) 2000) 10) 500) Ol Opn Om Ol OO Ol OR OM O05’ 
1 
1 
1 
1 
1 
On 5 h-5a- 3-4 -5a- 4 535 ae Onl Oe On OO ORs etO Onn Olt 
12 
13 
14 
15 
16 
17 
1 
OM OMOMOMO MONO ONO 0 0F O00. 0n0e:5. 
1 
lied 
1 
1 
LSU 
1 
1 
1 
ORODONS EON 0) ORO) Og ONO OMOR OE 0b0 
© 2)) = 4 ee eee Os Oe Ole Ol Ole Ot Os ON OO ON-5i1-2: 
-1 
-1 
ORRO ORO ORO OOOO 0) 181 
1 
ORO OOM ON IOh OOO OOM OlNO} Ih 
OBS Fo) O.0-0 040-020: On. 0 Sl 
1 
1 
1 
1 
1 
1 
1 
1 
1 
1 
1 
0-5 -5|-4 
0 Of-2 
OsSis5) 
1 
-1 
1 
1 
1 
rscrd BPS 8 OO) OO O-O-0F0 3-5 8 
1 
1 
O20! 505 O50) (0) ORO 0000 
1 4 =1 
1 
1 
ei 2is= 2) = Sige tO Ol Ole OleOle Ol Ole See 5 0-5. 
1 
-1 
Wea 28-25-2510 OOO) Onn On 00 On-5ic-4. 
Veale 2S Se oe SOMO OM Ol Sion 5-2, 
1 
vis bow 
ie{SeSie52 10 
1 
1 
1 
Nece= 2a 2 eel pal 
1 
Je 
Ait 
ec 
1 
1 
ORROR iOS Ole OF Ot Om ODOR Ol 5 in: 
O}SO0i 0) 100) SOMO Om 10) 10k.5a85: 
OO OF Ole Os Os ORON One 4-5) 
OOO OOP On OM OMS 45-4) 
OOM ORO O ROMO S144 
Ue 
ud 4 
Vo A 
1 
1 
1 
4 pee A a Cob Ce Pyocb yok j 
-1 
=2 
2. 
SS Bo. (0 by ee} coos} 
<2 
UES BOBS WOW) By 5) br 
1 
1 
vA 
1 
1 
1 
1 
1 
1 
=i] 
ch} of] 
~2n=SE-5 
yor der) 
=2) =2' -2 
1 
1 
=i1 
1 
1 
1 
0-4-4 -5 -4 
OS k~ 454) 
0) By} O. 
0-5-4 5 4 
Oo B= G 
On SiS 5. 
19 
20 
21 
117 
ig G5 5 0 Oo @ 
Se Oma 
1 
arse) pers 
=2eseace 
=i 
=i 
1 
1 
4 
1 
1 
“1 
1 
1 
1 
1 
1 
1 
1 
1 
1 
1 
1 
1 
1 
1 
of] 
Fey 4 Oy Oy) Bi ers cr 
O73! Cd] ehcthn bh Bhs Gnily eb 4] 
124) 
1 
1 
22 
23 
TY eer aoe IS Sy) = ) 0) 
1 
1 
1 
l= 
= 
ead 
1 
1 
-1 
eal 
Sef Of OO. 0 © 
et esys or) crs ath rd cr decr) sch] 
-1 
1 
1 
OR OOF OM Ot ORs Oi Siac4 
Oo OO OW G4 
Baby bh eB) Se S33) Bre hd] 
24 
et eae WO 5 O OO 0 
Asa it= 24155 ORs OF 0) 0 Om On O00 
-1 
1 
rats 
34 
BR Be Be sy 5 Reeord crs cr 
BB Ss Baby Bh 06} PY 073 of? 97 
BB eB By Bec Pes od cd 72 
(yb) Sh By bh) Bee ced od cyt cr 
1 
1 
1 
1 
=a 
1 
1 
1 
1 
1 
1 
1 
1 
1 
1 
1 
1 
1 
U.S 74 ce} 
14 
1 1 
1 
1 
1 
ee Ob 
1 
1 
000 5 4 4}-1}-3 
26 
27 
28 
29 
30 
= 355 Oe ONO; Ol OOM OM ON Oln0 
1 1-1-3 -4 
1 
1 
1 
1 
0) OO O- 0 5-9 9 SS Seeds 
000 5 4 -4]-2}-3]-1 
55 ee Olea Ofes Ot Ole Os Os Om Ol O00 
1 
000 5 4 -5]-2]-4 -4 
ORO SO MOR OMS i4s Sea5 
Be 5 One Ole On Oka Ol On OF Om ORsOM 00 
1 
5250 OOS OR OM OO RORIOMOMOmI0)2'0 
1 
G5 OO ORO ORO 0M0M Om0m0n0n0m0) 10 
4 
1 
UY 
tikes Oe 
1 
1 
OF 10) 10) OOo oS Se -Si=20 21-305) 4) 
0 OOO O05 0 Oebiete betes Sao, ha 
31 
GEG 5 5 eee Oe Oss Ome Oe Oe OO ee Ol Onn Oe OPO Om 000) 10 
Sie 4455 ol Ole Of O ee Ot Om Oe Ole! Oe Ont Oba Olt On Om Os OOP ORO es Ol OM, 
1 
1 
4 4 
1 
32 
1 
1 
(et 
O 0-0) 0) UWS0- WU 00. SS So Ss 24114) 
33 
ORO MOR OF OO ION Ole Ol Om Oke Ole Ole Ol OF Ol Ole Of Om Onn Op Ole One OS sOnn Oe en Ol Of Ole Ole Ol On Ol Os Ol Ole Ole Olen One Of Of Olen On 0-1 Oli Oe Onn Oe One Oe On Ons One Ome Onn 
34 
0 value represents upland cells 
Notes 
(-) denotes cells which can be either flooded or dry 
ive sign 
Negat 
Values of the coded friction array and Manning's n 
Figure 54. 
the calibration of tides 
in 
ts used 
icien 
2 
coeff 
