E-29
Obtain the absolute values of VctC.
A1
)
(Abs)
VctC
=
Determine the angle formed by VctA and VctB to three
decimal places (Fix 3).
v
(cos
=
(A
•
B)
A
B
, which becomes
=
cos
–1
(A
•
B)
A
B
)
,
1
(Fix)
3
A
(
VctA
1
5
(VCT)
e
1
(Dot)
VctB
)/
(
1
)
(Abs)
VctA
1
)
(Abs)
VctB
)=
1
c
(cos
–1
)
G
=
Scientific Constants
(fx-570MS/991MS only)
Your calculator comes with 40 built-in scientific constants that can
be used in any mode besides BASE. Each scientific constant is
displayed as a unique symbol (such as
π
), which can be used inside
of calculations.
To input a scientific constant into a calculation, press
h
and
then input the two-digit number that corresponds to the constant
you want.
To input the scientific constant C
0
(speed of light in a vacuum),
and display its value
Ah
28
(C
0
)
=
The following shows the two-digit numbers for each of the scientific
constants.
01: (mp) proton mass
02: (mn) neutron mass
03: (me) electron mass
04: (m
) muon mass
05: (a
0
) Bohr radius
06: (h) Planck constant
07: (
N) nuclear magneton
08: (
B) Bohr magneton
09: (
h
) Planck constant,
rationalized
10: (
α
) fine-structure constant
11: (re) classical electron radius 12: (
λ
c) Compton wavelength
6
6
Abs Vc t C
3.
Abs Vc t C
3.
7
7
0.984
(
Vc t A
·
Vc t B
)
÷
0.984
(
Vc t A
·
Vc t B
)
÷
cos
−1
Ans
10.305
cos
−1
Ans
10.305
CONST--
CONST--
C
0
299,792,458.
C
0
299,792,458.