"  V2t C++ ReCalc.exe Format : 

" Save UnitCalc History (right click) 'Select All & Copy' Paste/Save as 'ReCalcDo.txt'...
" Format ~ Edit the UnitCalc History File.  Save ~ Run : 'ReCalc(2).exe'
" ( Copy the Format Below : Save as 'test.RTF' and Edit :  for Test Run... 'ReCalcDo.txt'  )

" All lines MUST begin with 1 of 7 Tags and 1+ space.
"    (  NOTE :   Format Numbers WITH Units ( '/' ~ Ratio ) ... NOT for AutoTrig )

" Tag "    = comments NOT printed in 'ReCalc.txt'. 
" Tag >   = ?/comments PRINTED in 'ReCalc.txt'. 
" Tag .    = (`) Continue UnitCalc History Format (Edit Numbers Only).
" Tag !    = Start New Calculation ( ! Alone ~ Blank Line ).
" Tag _   = Insert Blank Line in 'ReCalc.txt'. ( End ALL Calc.~ InPuts with _ )
""
" Tag {   = Auto Trig ( Mem In/Out ~ Print Answer(s) with Units)
" Tag @ = ReCall (in ANY Number) and/or Save Answer in '1~Z'. " Tag I = InPut Number ( with unitsNote ) into Memory '1~Z'
""
" 0~9 and A~Z // 35+ Memories ( See Tag '{' and '@' )
"" " Note : 5 Math Op : +/-* and ^ = 1st Number Raised to 2nd Number.
> What is a full-size, solid platinum, male elephant's cost? AND tons?
> (Calc. Volume; platinum density = 21.45 g/cm^3; platinum is $1210/oz)
!
. 8 TON/ELEPHANT * 2000 LB/TON = 16000 LB/ELEPHANT
. 16000 LB/ELEPHANT / 62.3663293304678 FT*FT*FT/LB = 256.548688559478 FT*FT*FT/ELEPHANT
. 256.548688559478 FT*FT*FT/ELEPHANT / 35.3146667214886 M*M*M/FT*FT*FT = 7.26464985731751 M*M*M/ELEPHANT
. 7.26464985731751 M*M*M/ELEPHANT * 1000000 CM*CM*CM/M*M*M = 7264649.85731751 CM*CM*CM/ELEPHANT
. 7264649.85731751 CM*CM*CM/ELEPHANT * 21.45 GRAM/CM*CM*CM = 137156589.306155 GRAM/ELEPHANT
@ 137156589.306155 GRAM/ELEPHANT / 28.349523125 OZ/GRAM = 4838056.31231953 @G_OZ/ELEPHANT
. 4838056.31231953 OZ/ELEPHANT *1210 $/OZ = 3793036148.85851 $/ELEPHANT
!
@ 4838056.31231953 @G_OZ/ELEPHANT / 16 LB/OZ = 302378.519519971 LB/ELEPHANT
. 302378.519519971 LB/ELEPHANT / 2000 TON/LB = 151.189259759985 TON/ELEPHANT
_
_ Always End with a Blank Line
_
> Simple ( Static Earth/Moon ) Solar Eclipse Approximate Duration :
> Aug 21, 2017 (1°SW) Evansville, Ind. at 37.51° N.Lat : Moon Distance = 231,027.1 MI
> April 8, 2024 (1°SW) Evansville, Ind. : Moon Distance = 223,485 MI
!
I A 3963.205 MI(EarthR) // non-zero inputs require a unitsNote
I B 37.51 N.Lat°
I C 231027.1 MI_MoonDistance // ALLWAYS End InPuts with _ or !
_

. 1 AU * 149597871 KM/AU = 149597871 KM
. 149597871 KM / 1.609344 MI/KM = 92955807.3 MI
@ 92955807.3 MI - 222276.5 @C_
MI = 92733530.8 @1_MI(Sun2Moon)
!
@ 2160 MI / 2
'/' = 1080 @2_MI(MoonR)
!
@ 432474.35 MI - 1080 @2_
MI = 431394.35 @3_MI(SunR-MoonR)
{ 1j 3o 4h 5g 0 0 5 ~Sun2MoonAngle } // USE ~ ONLY with Angle = DegMinSec
_

{ 6j 2o 7h 5g 6 MI(MoonShadowLength) 0 0 }
_
I 7 0 // ReSet = 0 : Required for Auto Trig : ReUse Memory 7
_
{ 8j 7o Ah Bg 8 MI(EvilleEarthR) 0 0 }
!
@ 3634.49696524811 @8_MI / 3963.20488 @A_/MI = 0.917060101 Ratio
@ 0.917060101 Ratio * 1038 MI/HR = 951.908385 @9_MI/HR(EvilleSpin)
!
@ 232159.306852105 @6_MI - 222276.5 @C_MI = 9882.80685 MI(PastEvilleEarthR)
@ 9882.80685 MI + 3634.49697 @8_
MI = 13517.3038 @D_MI
{ Dj Eo Fh 5g E MI(EvilleMoonShadowR) 0 0 }
!
@ 62.8822006780084 @E_MI * 2 '/' = 125.764401 MI(EvilleMoonShadowDia)
@ 125.764401 MI / 951.908385 @9_HR/MI = 0.132118178 HR
` 0.132118178 HR * 60 MIN/HR = 7.92709067 MIN(Eclipse_Approx.)
_
_
> Solve S.A.S. (Obtuse) TriAngle: ( A = 45.8724, B = 37.7°, C = 104.902 )
!
I A 45.8724 MM_SideA
// non-zero inputs require a unitsNote
I B 37.7 AngleB°
I C 104.902 MM_SideC
I D 0 // ReSet = 0 : D ~ H
: Required for Auto Trig
I E 0
I F 0
I G 0
I H 0 // ALLWAYS End InPuts with _ or !
_
{ Ej Do Ah Bg E SideE_MM D SideD_MM }
!
@ 4.13 @C_SideC - 1.44233573114541 @E_SideE = 2.68766426885459 @F_SideF_MM
_

{ Fj Do Hh Gg H SideH_MM G ~AngleG }
_
_ > ( A.S.A.TriAngle ) The roof lengths ( SideJ and SideI ) with:
> AngleA or pitch = 2 (3/4)" = 2.75" per foot
> AngleB or pitch = 8 (3/4)" = 8.75" per foot
!
I A 0
I B 148.336 MM_SideB
I C 0
I D 0 // ReSet = 0 : A, C thru J + N, P
I E 0
I F 0
I G 0
I H 0
I I 0
I J 0 I K 2.75 IN_pitch_AngleA // non-zero inputs require unitsNote
I L 8.75 IN_pitch_AngleB
I M 12 IN_Run_Base
I N 0
I P 0
// ALLWAYS End InPuts with _ or !
_ { Mj Ko Nh Ag A ~AngleA 0 0 }
!
{ Mj Lo Ph Cg C Deg_AngleC 0 0 }
!
{ Dj Eo Bh Ag D SideD_IN E SideE_IN}
!
@ 90 DEG - 13
@A_AngleA = 77 @F_DEG_AngleF
@ 77 DEG - 36
@C_AngleC = 41 @G_DEG_AngleG
!
{ Ej Ho Ih Gg H SideH_IN I SideI_IN }
!
@ 5.69032117834577 @D_SideD - 1.14199429428157 @H_SideH = 4.5483268840642 @J_SideJ(IN)
_
_
> What is MI/HR of a dive from a 40 FT platform? (
2D/g = t2 and V = gt )
!
` 40 FT * 2 '/' = 200 FT
` 200 FT / 32.17404855643 SEC*SEC/FT = 6.21619003431354 SEC*SEC
` 6.21619003431354 SEC*SEC ^ .5 '/' = 2.49322883713339 SEC
` 2.49322883713339 SEC * 32.17404855643 FT/SEC*SEC = 80.2172656682213 FT/SEC
` 80.2172656682213 FT/SEC * 3600 SEC/HR = 288782.156405597 FT/HR
` 288782.156405597 FT/HR / 5280 MI/FT = 54.6935902283327 MI/HR
_
_ Always End with a Blank Line
_
> Observation+ : Electrical energy can interact with only a Tiny fraction of the electrons/cc.
> ( .026 eV / 7 eV = 0.37% * k electron/cc. = 3.12436972309661e+20 electron/CM*CM*CM )
_
> The Max. speed of 1 AMP current in 1 MM (.0394 IN) Dia. x 1 M wire : I/(Q*e*Area) :
!
` 0.1 CM * 0.1 CM = 0.01 CM*CM
@ 0.01 CM*CM * 0.785398163397448 '/' = 0.00785398163397448 @1_CM*CM
!
@ 3.12436972309661e+20 electron/CM*CM*CM * 1.60217733e-19 C/electron = 13477.1386100717 @2_C/CM*CM*CM
@ 13477.1386100717 C/CM*CM*CM * 0.00785398163397448 @1_CM*CM = 105.849199122031 @3_C/CM
!
. 1 AMP * 1 C/SEC*AMP = 1 C/SEC
@ 1 C/SEC / 105.849199122031 @3_CM/C = 0.0094474026095098 CM/SEC
@ 0.0094474026095098 CM/SEC / 2.54 IN/CM = 0.0037194498462637 @4_IN/SEC
. 0.0037194498462637 IN/SEC * 60 SEC/MIN = 0.223166990775822 IN/MIN
_
> The Max. size of the AC wiggle (at 60 HZ) :
!
@ 0.0037194498462637 @4_IN/SEC / 60 SEC/CYCLE = 0.0000619908307710617 IN/CYCLE
_
> The Max. size of one Coulomb (copper) :
!
@ 1 '/' / 13477.1386100717 @2_CM*CM*CM/C = 0.0000741997265838525 @5_CM*CM*CM/C
` 0.0000741997265838525 CM*CM*CM/C ^ 0.333333333333333 '/' = 0.0420211017514518 CM
` 0.0420211017514518 CM/C / 2.54 IN/CM = 0.0165437408470283 IN(Cube)
_
> The Max. Length of copper wire/C :
!
@ 0.0000741997265838525 @5_CM*CM*CM/C / 0.00785398163397448 @1_/CM*CM = 0.00944740260950977 CM/C
` 0.00944740260950977 CM/C / 2.54 IN/CM = 0.00371944984626369 IN/C
_
_ Always End with a Blank Line
_
> A truck at 65 mi/hr, with 36 IN diameter tires and 4.11 gearing: What is the motor RPM?
!
. 36 IN * 3.141592654 '/' = 84.823001658 IN
. 84.823001658 IN / 12 FT/IN = 7.0685834715 FT
@ 7.0685834715 FT * 1 '/'*REV = 7.0685834715 @7_FT/REV
!
. 65 MI/HR / 60 HR/MIN = 1.16666666666667 MI/MIN
. 1.16666666666667 MI/MIN * 5280 FT/MI = 6160 FT/MIN
@ 6160 FT/MIN / 7.0685834715 @7_REV/FT = 871.461732727166 REV/MIN
. 871.461732727166 REV/MIN * 4.11 '/' = 2448.80746896334 REV/MIN
_
_ Always End with a Blank Line _
_ " ReCalc.exe OutPut : ( Copy from 'ReCalc.txt' ) _
What is a full-size, solid platinum, male elephant's cost? ~ tons?
(Calc. Volume; platinum density = 21.45 g/cm^3; platinum is $1210/oz)

8 TON/ELEPHANT * 2000 LB/TON = 16000 LB/ELEPHANT
16000 LB/ELEPHANT / 62.3663293 FT*FT*FT/LB = 256.548689 FT*FT*FT/ELEPHANT
256.548689 FT*FT*FT/ELEPHANT / 35.3146667 M*M*M/FT*FT*FT = 7.26464986 M*M*M/ELEPHANT
7.26464986 M*M*M/ELEPHANT * 1000000 CM*CM*CM/M*M*M = 7264649.86 CM*CM*CM/ELEPHANT
7264649.86 CM*CM*CM/ELEPHANT * 21.45 GRAM/CM*CM*CM = 155826739 GRAM/ELEPHANT
155826739 GRAM/ELEPHANT / 28.3495231 OZ/GRAM = 5496626.48 OZ/ELEPHANT
5496626.48 OZ/ELEPHANT * 1210 $/OZ = 6.65091804e+09 $/ELEPHANT

5496626.48 OZ/ELEPHANT / 16 LB/OZ = 343539.155 LB/ELEPHANT
343539.155 LB/ELEPHANT / 2000 TON/LB = 171.769577 TON/ELEPHANT

Simple ( Static Earth/Moon ) Solar Eclipse Approximate Duration :
Aug 21, 2017 (1°SW) Evansville, Ind. at 37.51° N.Lat : Moon Distance = 231,027.1 MI
April 8, 2024 (1°SW) Evansville, Ind. : Moon Distance = 223,485 MI

InPut: A = 3963.205 MI(EarthR)
InPut: B = 37.51 N.Lat°
InPut: C = 231027.1 MI_MoonDistance

1 AU * 149597871 KM/AU = 149597871 KM
149597871 KM / 1.609344 MI/KM = 92955807.5 MI
92955807.5 MI - 231027.1 MI = 92724780.4 MI(Sun2Moon)

2160 MI / 2 '/' = 1080 MI(MoonR)

432474.35 MI - 1080 MI = 431394.35 MI(SunR-MoonR)
AutoTrig Values: { 92724780.4j 431394.35o 92725783.9h 0.266561939g }
0.266561939 [ 0 Deg 15' 59.6229798" ] ~Sun2MoonAngle

AutoTrig Values: { 232137.4j 1080o 232139.912h 0.266561939g }
232137.4 MI(MoonShadowLength)

AutoTrig Values: { 3143.80079j 2413.19507o 3963.205h 37.51g }
3143.80079 MI(EvilleEarthR)

3143.80079 MI / 3963.205 /MI = 0.793247079 Ratio
0.793247079 Ratio * 1038 MI/HR = 823.390468 MI/HR(EvilleSpin)

232137.4 MI - 231027.1 MI = 1110.30001 MI(PastEvilleEarthR)
1110.30001 MI + 3143.80079 MI = 4254.1008 MI
AutoTrig Values: { 4254.1008j 19.7918511o 4254.14684h 0.266561939g }
19.7918511 MI(EvilleMoonShadowR)

19.7918511 MI * 2 '/' = 39.5837023 MI(EvilleMoonShadowDia)
39.5837023 MI / 823.390468 HR/MI = 0.0480740351 HR
0.0480740351 HR * 60 MIN/HR = 2.88444211 MIN(Eclipse
_Approx.)


Solve S.A.S. (Obtuse) TriAngle: ( A = 45.8724, B = 37.7°, C = 104.902 )

InPut: A = 45.8724 MM_SideA
InPut: B = 37.7 AngleB°
InPut: C = 104.902 MM_SideC

AutoTrig Values: { 36.2953224j 28.052213o 45.8724h 37.7g }
36.2953224 SideE_MM
28.052213 SideD_MM

104.902 SideC - 36.2953224 SideE = 68.6066776 SideF_MM

AutoTrig Values: { 68.6066776j 28.052213o 74.120192h 22.2388963g }
74.120192 SideH_MM
22.2388963 [ 22 Deg 14' 20.0265304" ] ~AngleG


( A.S.A.TriAngle ) The roof lengths ( SideJ and SideI ) with:
AngleA or pitch = 2 (3/4)" = 2.75" per foot
AngleB or pitch = 8 (3/4)" = 8.75" per foot

InPut: B = 148.375 IN_SideB
InPut: K = 2.75 IN_pitch_AngleA
InPut: L = 8.75 IN_pitch_AngleB
InPut: M = 12 IN_Run_Base

AutoTrig Values: { 12j 2.75o 12.3110723h 12.9074087g }
12.9074087 [ 12 Deg 54' 26.6712166" ] ~AngleA

AutoTrig Values: { 12j 8.75o 14.8513467h 36.098284g }
36.098284 Deg_AngleC

AutoTrig Values: { 144.625908j 33.1434372o 148.375h 12.9074087g }
144.625908 SideD_IN
33.1434372 SideE_IN

90 DEG - 12.9074087 AngleA = 77.0925913 DEG_AngleF
77.0925913 DEG - 36.098284 AngleC = 40.9943074 DEG_AngleG

AutoTrig Values: { 33.1434372j 28.8053696o 43.9116926h 40.9943074g }
28.8053696 SideH_IN
43.9116926 SideI_IN

144.625908 SideD - 28.8053696 SideH = 115.820538 SideJ(IN)


What is MI/HR of a dive from a 40 FT platform? ( 2D/g = t2 and V = gt )

40 FT * 2 '/' = 80 FT
80 FT / 32.1740486 SEC*SEC/FT = 2.48647601 SEC*SEC
2.48647601 SEC*SEC ^ 0.5 '/' = 1.57685637 SEC
1.57685637 SEC * 32.1740486 FT/SEC*SEC = 50.7338534 FT/SEC
50.7338534 FT/SEC * 3600 SEC/HR = 182641.872 FT/HR
182641.872 FT/HR / 5280 MI/FT = 34.5912637 MI/HR

 

Observation+ : Electrical energy can interact with only a Tiny fraction of the electrons/cc.
( .026 eV / 7 eV = 0.37% * k electron/cc. = 3.12436972309661e+20 electron/CM*CM*CM )

The Max. speed of 1 AMP current in 1 MM (.0394 IN) Dia. x 1 M wire : I/(Q*e*Area) :

0.1 CM * 0.1 CM = 0.01 CM*CM
0.01 CM*CM * 0.785398163 '/' = 0.00785398163 CM*CM

3.12436972e+20 electron/CM*CM*CM * 1.60217733e-19 C/electron = 50.0579434 C/CM*CM*CM
50.0579434 C/CM*CM*CM * 0.00785398163 CM*CM = 0.393154168 C/CM

1 AMP * 1 C/SEC*AMP = 1 C/SEC
1 C/SEC / 0.393154168 CM/C = 2.54353147 CM/SEC
2.54353147 CM/SEC / 2.54 IN/CM = 1.00139034 IN/SEC
1.00139034 IN/SEC * 60 SEC/MIN = 60.0834206 IN/MIN

The Max. size of the AC wiggle (at 60 HZ) :

1.00139034 IN/SEC / 60 SEC/CYCLE = 0.0166898391 IN/CYCLE

The Max. size of one Coulomb (copper) :

1 '/' / 50.0579434 CM*CM*CM/C = 0.0199768495 CM*CM*CM/C
0.0199768495 CM*CM*CM/C ^ 0.333333333 '/' = 0.271336988 CM
0.271336988 CM/C / 2.54 IN/CM = 0.106825586 IN(Cube)

The Max. Length of copper wire/C :

0.0199768495 CM*CM*CM/C / 0.00785398163 /CM*CM = 2.54353147 CM/C
2.54353147 CM/C / 2.54 IN/CM = 1.00139034 IN/C


A truck at 65 mi/hr, with 36 IN diameter tires and 4.11 gearing: What is the motor RPM?

36 IN * 3.14159265 '/' = 113.097336 IN
113.097336 IN / 12 FT/IN = 9.42477796 FT
9.42477796 FT * 1 '/'*REV = 9.42477796 FT/REV

65 MI/HR / 60 HR/MIN = 1.08333333 MI/MIN
1.08333333 MI/MIN * 5280 FT/MI = 5720 FT/MIN
5720 FT/MIN / 9.42477796 REV/FT = 606.91085 REV/MIN
606.91085 REV/MIN * 4.11 '/' = 2494.40359 REV/MIN