INDEX 1/MEET THE SCIENTIFIC CALCULATOR . 2/BEFGRE USING YOUR CALCULATOR 3/ABOUT POWER SUPPLIES . 4/GENERAL GUIDE 5/HELPFUL HINTS FOB EASIER CALCULATIONS 6/PERFORMING BASIC CALCULATIONS 7/PERFORMING BINARY, OCTAL, DECIMAL AND HEXADECIMAL CALCULATIONS B/USING FUNCTIONS IN CALCULATIONS PERFORMING STATISTICAL CALCULATIONS .. NONPERFORMING IMPEDANCE CALCULATIONS 11/USING BUILT-IN FORMULAS FOR CALCULATIONS 12/USING PROGRAMMED CALCULATIONS . 13/FORMULA LIBRARY 14/SPECIFICATIONS ..
{COMP mode| [ 1P mode | [ 5D mode | [BANES mode] HEX mode [Bil oo |[oc [ P& made } [RAD mods | [GRA meed | [ FiX mode | [ SCi mode | [NORM mode] LAN: Lean RAD: Radians .
B8 @ — 8Ct mode Use the SC mode to specify the number of significant digits for 5 value. The symbol Solis shown o the display il the legislator & n this mode. 8 (3] — NORM mode * Use the NORM mod to cancel specifications.made fn the FIX and SCI mods. No symbol is shown on the display while the cafeteria is in this mode.
2 Deist =0.0012 % digits 1.2x 10587 You can find further information on the use of exponential} notation on wage 11. »Hexadecimal/ Vigesimal Display Formats The hexadecimal display and angle in the vigesimal scale are displaced as follows. ABODE T2 j 14125672780) Degrees Minutes Seconds 2/BEFORE USING YOUR CALCULATOR Note the following safety precautions bears using your calculator.
shift Key Function keys Numeric keys: e 1 awe ass : ‘ Mode' kéy = Internal Registers -~ : oo “The following illustration shows. (he different misters suds nv the calculator, as wail a8 the data that is stared gathering register . X register \ } » Arithmetic and scientific fusion calculations ¥ (L1} register « Calculations that require. prioritizing of -arithmetic functions, trams contained in parentheses, ete. lees page 171, [Yale T register | < .
@ Angle of Deviation/Constant Memory Output key In the IMP mode (SEISMIC, this key allocates tingle ot deviation for 2 displayed complex impedance. In the COMP. mode (%5 (A1) and SD mods (&8 press this key.t0.revall values stored in constant memories 1 through 6 IK registers). To recall a.value stored in constant temerity 5, for example, press: Eigenvalues tan #l90 be output from the constant memories in the.
«Percent Constants T To coagulate: 1600 Calculator 23% of 1500 {Con timing] calculate what percent of 192g is 30a. 192E82 08 ey To.calculate what percent of 192g, !29, 126y To calculate what percent of the original is the resulting quantity if §00g is added fo 1200g. ! 130088 To ululate what par cant of the original is the result ing quantity i 510g is added to 1200g. Bloomer o calculate the percentage decrease from 150g to 1389. i 1508813860 o calculate the percentage increase from 150g:t0 168g.
Example Operation \ Display Dora: 85,55, 51, 65,53, ERASED SERENENESS MRS Standard: deviation 1.3169567 19 *The same result con Tresamorenmon e invigorated deviation oy, VG| 1407885963 audience they are recalled. hogan 3 ) (I 53.375 Wirier of data m Ea Ifs | sum o G | 122808, © o of squares £5° ) RIGGER To calculate the unbiased Continuing MEDIA (released 952142657 variance tho differ" nice Between the mean G Press ) and gate data item, D.628w4"H 518 =2/375151 Whats 3 a0d ., for tha fol.
Example: ; oS T GIH O2H . T determine the, composite Impedance. between a and b, when/ = §0Hz. [, FEZ) IMP mode) a8 g frequency) 31.41592654 BORE ' 62.83185307 | a 94.24777961 |7 Swimmer w Calculating Capacitor impedance 1f you press the ] key after entering a value, or a1 some point during s calculation, the calculation proceeds assuming that the displays values represents electrostatic capacitance. You consonant parasitism calumniation for example number.
Y] IMP meted B0{fm {To input as 2 frequency) 25.3274123 10. w8 B ~1591.549431 10.32390233 |~ Real part —q1— part 25:48925453:. | e-oaginary = Calculating Angular Frequency «, Angle of Deviation 8, and Absolute Value 121 .
= Calculation Examples of Composite Impedance. « Serial Circulate 204F -~ DOTH . o determine the composite impedance between & and, b whom fi= BEE) IMP tads) ‘sofa enter ag a frequency) 50. 4B R20 —159, 1542431 3.141592654 e e 4000. —158.0133504 * Parallel circuit mHE determinate the composite impedance between & and &, IMPERFECT mode) . Meme@ 5000, [N @I 3076.923077 208 o < Real pant i imaginary are Bl 4 * This example.can alas be performed in the COMP mads or SD mods.
= Using Complex Numbers in Calculations Arithmetic operations, memory calculations, constant calculations and parenthetical calculations are afl possible with complex numbers. % Using Complex Numbers in Arithmetic Operations input arithmetic operations as they me written, from 1661 to right. When entering complex numbers, however, yau should use the format “x + 3", where xis the real part and ¥ Is the imaginary part. In this case, enter “f* using the portions By Example ] Operation Display. FWE(Z) (P .
Example Operation Display (@23 | " =747 ' 77 8. =9 = Other Compile Number Calculations In the IMP_ mode, parentheses can be used up to three levels and nine pairs. Pressing £ &3 exchanges the contents’ of the X register with those of the ¥ register. you enters BB, the calculator will produce the Inverse of.the displayed complex, dumber, Example: . Inverse 1SR Whenever you change the sign of a complex number, it is changed for both the real and imaginary parts.
Once you call up a formula, prompts will appear in success session on the display 10 wide Yau through the input. Enter the required virtuoso to ot the result, 0 [Example: o Closed loop gain of operational amplifier-nonconvertible ford back circuit. | GRS [ e . [Calls up Formula 10.% @ e {Assigns 2 x 107 ta variable 107 (T .
Formula » The following saws that key sequence required to Input the required formula. GO 700 i @0, 038 Value of / Value of R Va hie of C :Value yest part) 5~ Z imaginary part) Operation Display {Enter LAN made} AR n Pro DEE o. Enter IMP model ~2652, 582385 9698524907 e e ) 0,03 11,30973355 o [C #row | Result 2. 593390637 Real part} Pro. result WEE| | yp.73143443 iy pas sample exaction using the programmed formula 4% microfiber |5 9191063469.,, Result tooter | , 187543965 el part | Re suit 1.
® Looping a Programmed Calculation . You cen mike execution of the programmed calculation slop back to the beginning and repeatedly cutaneous by using a remit Institution. e 1. Unconditional return to the firs step of program: RTN Write the sequence the end of a program ta execute it repeatedly. Example: . _ Calculate the surface areas 1S} of regular totalitarians whose ridges are respective 10, 7 and 15¢tm long. vy Formula: $=23 4 Ridge length (a)| Surface area . 10 em 346,41} em® . 7 1188.24} 401 15 779.
{ Change in Terminal Voltage Series Circuit * This equator s used to determine voltage Vain an RC series circuit 4t time ¢ when the resistance and con v are know: Signings e Portaged st interlining oiféGit 51 timed 1 108 when ohms, Cb and (When r=0s, voltage of terminal Vr=0V) Operation Recall.change in'terminal voltage Q06 106 TEDS series {Eater value for V.1 {Enter value for 1. t Enter value for €} tenor value for R} Time Constant for an RC Series Circuit C s electrostatic capacitance, R is.
conversion 5y = A Conversion __RRs R TRt Re Rs . Ry, Ry and R are indicated as r, 1" and ¢ respectively. Ra; Rj-8nd: Re are indicated as rasp actively. R’ and R (DERRIERE 03 —Supererogatory Retrievers R« Re Ry, Ry and R, are indicated as r, r* and r respectively, Rs, Rs and R are indicated o R, R’ and R respectively, * This equation is used to convert from a8 4 connection o a Y connection.
G| Resistance of Matched Impedance 7| Power Factor 7 and 2 are impedance et R / f=cos”l % Bz Ris resistor, Z'is impedance » This equation is used to determine R and R’ to match Z and Z with minimum loss. Extrapolate Determine the R and R’ when =500 ohms and Z' =200 hams. " Operation Display mam {Recoil resistance of matched impedance) {Enter val tor Z.) (Enter value s 20080 R387.2083346 B [ 2581988897 1. isa yardarm ; L.
17] Joule's Law Joule's Law (1) P=VI ¢ P=RI* (R>0} ¥ is.potential difference, Crosscurrent resistance, I is current This equation is used ta determine the Joule's heat generated by a wire when potentiality difference of the wire and the current arc known. Get arming the Joule’s heat generated when a voltage of Y= 100V and curer of 14 amperes are applied o SEBASTIAN . < . Operation pleurisy' e em e Time :l " 'worm " apo. Recall Route's lew (1) (Talent value far V) (Enter value.
22| Magnetic Force 23] induced Electromotive Force FIBER sing i slwom™) F is motive force of conductor, 1 is current flowing through conductor, B is magnetic flux density, £ is length of conductor, @ is angle formed by conductor and magnetic field * This equation is used to determine the motive force for a current windflower & tandoori which is caused within 2 magnetic field of uniform magneto flux density. Example .
