User`s guide
E-62
No. 21 Bernoulli’s Theorem
Determines the fi xed value (
C
) of an inviscid fl uid (steady fl ow, incompressible fl uid) when
the fl ow velocity (
v
), location (height) (
z
), specifi c weight (
ρ
), and pressure (
P
) are known.
C =
v
2
++gz
2
1
ρ
P
(g: gravitational acceleration, v, z,
ρ
, P > 0)
C =
v
2
++gz
2
1
ρ
P
(g: gravitational acceleration, v, z,
ρ
, P > 0)
Units:
v
: m/s,
z
: m,
ρ
: kgf/m
3
,
P
: kgf/m
2
,
C
: m
2
/s
2
No. 22 Calculations Using a Stadia (Height)
Determines the difference in elevation (
h
) from the transit to the leveling rod after a transit
is used to read the length on the leveling rod (
) between the upper and lower stadia lines,
and the angle of elevation (
Ƨ
).
(
K
and
C
: stadia constants, 0° <
Ƨ
<
90°, > 0)
Units: : m,
Ƨ
: ° (degrees),
h
: m
No. 23 Calculations Using a Stadia (Distance)
Determines the horizontal distance (
S
) from the transit to the leveling rod after a transit is
used to read the length on the leveling rod (
) between the upper and lower stadia lines,
and the angle of elevation (
Ƨ
).
Units: : m,
Ƨ
: ° (degrees),
S
: m
Program Mode (PRGM)
You can use the PRGM Mode (
,
g
) to create and store programs for calculations you
need to perform on a regular basis. You can include any calculation that can be performed
in the COMP, CMPLX, BASE, SD, or REG Mode in a program.
k
Program Mode Overview
A
Specifying a Program Run Mode
Though you create and run programs in the PRGM Mode, each program has a “run mode”
that it runs in. You can specify COMP, CMPLX, BASE, SD, or REG as a program’s run
mode. This means you need to think about what you want your program to do and select the
appropriate run mode.
A
Program Memory
Program memory has a total capacity of 680 bytes, which can be shared by up to four
programs. Further program storage is not possible after program memory becomes full.
h =
K sin2 + Csin
2
1
θθ
h =
K sin2 + Csin
2
1
θθ
S = K cos
2
+ Ccos
θθ
(K and C: stadia constants, 0° < θ < 90°, > 0)
S = K cos
2
+ Ccos
θθ
(K and C: stadia constants, 0° < θ < 90°, > 0)