Graphing Calculator EL-9650/9600c OPERATION GUIDE
Introduction The EL-9650/9600c was developed to meet the needs of an expanding education market and is based on three concepts: easy to teach, easy to learn and easy to use. The EL-9650/9600c has been designed with simplified operations and time-saving features, allowing teachers to concentrate on actual teaching. This manual was designed to introduce teachers to the unique features of the EL-9650/9600c using detailed operation examples.
S ales points 1 Large 132 x 64-dot display 2 Easy Pen-touch screen 3 Graph Shift/Change shows how "changing" the graph affects the equation 4 Slide Shows reduce class preparation time 5 Equation Editor shows equations just as in textbooks 6 Rapid graph/Rapid window simplify graphing procedures 7 Rapid zoom allows easy adjustment of window size 1
Basic operation Power ON/OFF ○ ○ ○ ○ ○ ○ ○ Power on Function keys Use to enter equations Use to draw graphs ○ ○ ○ Power off Use to view table of function value Use to set size of viewing window ○ ○ ○ ○ ○ ○ Erase equations and remove error displays QUIT CL ○ ○ ○ Cancel of previous function (Escape) Use to adjust the viewing range Use to trace graphs Use to enter calculation mode Use to enter slide show mode Use to operate Rapid Graph/Rapid Window and Rapid Zoom functions Names of
Basic operation Guide to key use Press Press to use secondary functions (in yellow). to use the alphabet keys (in blue). SET UP menu Press . • Contents displayed on the right side of the screen are the current settings. A Example: sin To select “sin”: To select A: ] To select “sin-1”: There may be differences in the results of calculations and graph plotting depending on the SET UP settings.
Pen-touch operation Pen Touch Pen-touch screen offers convenient operations. Use it to select from the menu displays or shift a graph, fast and easy. All operations can also be performed without the pen. 1 Convenient to make changes to graphs 3 Easy to move between displays ○ ○ ○ ○ ○ ○ ○ ○ 2 Select menu options with a touch of the pen See how a simple choice can be made directly from the screen. Example: Convert “3.
E quation editor The equation editor allows equations to be viewed just as they are written in textbooks. This aids student comprehension and allows mistakes to be found quickly. Example Input the equation and see how it can be easily viewed with the equation editor. Key Operation Display Notes Clear the display. 1 Select CALC and (Integral function) 2 Pen Touch (or ) Enter the range of the integral. 3 Enter 4 Complete equation input. 5 6 7 (or ) ] Pen Touch Calculate the expression.
Features Shift (Change the location of graphs) Graph shift function helps students grasp the relationship between an equation and its graph. Shift the graph’s location without changing its shape, and the change is immediately reflected in the equation on the right side of the display. Example When the graph of y = x2 is shifted downward, how does this affect the equation? 1 2 Display Notes Enter SHIFT/CHANGE mode. ] Key Operation If SHIFT is not already . highlighted press ] Select shift.
Features Change (Change the shape of the graphs) Graph change function helps students grasp the relationship between an equation and its graph. Change the shape of the graph, and the change is immediately reflected in the equation on the right side of the display. Example When the graph of y = x2 is changed, how does it affect the equation? Key Operation Display Notes 1 Enter SHIFT/CHANGE mode and specified ( CHANGE ). 2 Select change. Cursor will move to the equation menu.
Features S lide show Slide show assists with teacher preparation. By selecting from the built-in options or creating your own series of slides, you can demonstrate lessons with minimum preparation time. Example Use the built-in slide show of y = x2 to show how the coordinates change as you move along the graph. Key Operation 1 2 Display Notes Specified SLIDE SHOW mode. Select the built-in menu. Pen Touch 3 Select y = x2 and the first slide appears.
Features Built-in slide show selections 1) Y=X2 2) Y=AX+B 3) Y= X 4) Y=1/X 9
Features Built-in slide show selections 5) Y=sinX 6) Y=tanX 7) Y=cos-1X 8) Y=lnX 10
Features Graphing Procedures The EL-9650/9600c has three unique functions that simplify graphing procedures: Rapid Graph, Rapid Window and Rapid Zoom. Of course, the EL-9650/9600c supports conventional graphing procedures as well. Graphing Procedure Following outlines graphing procedures and indicates the steps where Sharp's unique functions can be used to simplify operations. These functions are introduced on the following pages.
Features R apid graph Graphing has never been easier. With its full range of preset equations, rapid graph simplifies equation input. Use in conjunction with the rapid window function or with any graph created. Example Draw the graph for y = 2sin (-2x+ ) + 2 using the rapid graph function. Key Operation 1 Display Notes Enter the equation entry mode. 2 Enter Rapid Graph mode and view the equation-type menu. 3 Select the type of equation: Trigonometric, and view the equation format menu.
Features R apid window Rapid window simplifies setting window size with a range of preset values. Use in conjunction with the rapid graph function or with any graph created. Example After using Rapid Graph to draw the graph of y = 2sin (-2x+ ) + 2 (refer p. 12), set the viewing window using the rapid window function. Key Operation Enter Rapid Window mode. 2 Select the No. 3 style and view the X-range menu. 3 4 Pen Touch (or ) (Five times) (or ) 7 Select X-range No.
Features R apid zoom Rapid zoom offers one-touch adjustment of window size while viewing the graph. No more guessing or wasting class time to find optimal values for window size. Example Adjust the viewing window for y = x3 + x2 - 2x to show the entire graph. Key Operation 1 Display Notes Create the graph y = x3 + x2 - 2x using the following conditions: X-range: xmin = -3 xmax = 3 xscl = 1 Y-range: ymin = -1.5 ymax = 1.5 yscl = 0.5 2 Enter Rapid Zoom mode. 3 Change Y-range from Ymax = 1.
System options PC-LINK Connect the EL-9650/9600c with a PC or Macintosh computer to expand the possibilities of data exchange using PC-Link software. CE-LK1P (PC-link system) PC-Link Software PC conversion connector for IBM-PC R IBM PC or Compatibles PC-Link Software CE-450L PC conversion connector for Macintosh Macintosh R What is PC LINK? • Creates and edits EL-9650/9600c programs on a PC. • Loads image data of EL-9650/9600c. • Receives and saves programs and various data from EL-9650/9600c.
System options Set to set communication Transfer data between two EL-9650/9600c calculators using the communication cable (CE-450L). CE-450L (Communication cable) EL-9650/9600c CE-450L Communication cable EL-9650/9600c Communication Procedure 3 Pen Touch Turn power on. Select SEND/ALL. Receiver ) Specified LINK. 4 Select ‘LI’, ‘YI’ * mark desired data to be sent. ] 9 ( or ) Select LINK/RECEIVE. Execute Sending function.
OHP System Use the EL-9650/9600c OHP system with the overhead projector to make classroom presentations convenient for the whole class to see. EL-965T/96Tc (OHP system) AC adaptor (optional) OHP Projection Panel CE-450L OHP Panel Controller The CE-450L is included for separate use (see page 16) Procedure 1 Switch off the OHP Panel Controller. 2 Plug the cable connector of the OHP Projection Panel straight into the connection terminal of the OHP Panel Controller.
Menu tree 1 SET UP ( 2nd F SET UP ) A B DRG Rad FloatPt 9 Rect Decimal (Real) Equation 1 Deg 2 Rad 3 Grad F AMSWER 1 Decimal (Real) 2 Mixed (Real) 3 Improp (Real) 4 x+yi (complex) 5r (complex) FORMAT ( 2nd F C FSE 1 FloatPt 2 Fix 3 Sci 4 Eng G EDITOR 1 Equation 2 One Line D TAB 11 22 33 44 55 66 77 88 99 00 E COORD 1 Rect 2 Param 3 Polar 4 Seq ) FORMAT A B CURSOR RectCursor OFF OFF Connect Sequen 1 RectCoord 2 PolarCoord D Y1 C EXPRES 1 ON 2 OFF 1 ON 2 OFF E STYLE1 1 Connect 2 Dot F S
Menu tree 2 When coordinate system is Rect CALC ( 2nd F CALC When coordinate system is Polar, Param or Seq ) CALC CALC ( 2nd F CALC ) ( 2nd F LIST ) CALC 1 Value 1 Value 2 Intsct 3 Minimum 4 Maximum 5 X_Incpt 6 Y_Incpt 7 Inflec LIST MATH menu on the NBASE calculation A OPE N-MATH ( 2nd F TOOL MATH ) 1 sortA( 2 sortD( 3 dim( 4 fill( 5 seq( 6 cumul 7 df_list 8 augument( 9 list mat( 0 mat list( A LOGIC 1 and 2 or 3 not 4 neg 5 xor 6 xnor STAT C L_DATA 1 stoLD 2 RclLD ( STAT ) A EDIT edi
Menu tree 3 ZOOM ( ZOOM ) A ZOOM 1 Auto 2 Box 3 In 4 Out 5 Default 6 Square 7 Dec 8 Int 9 Stat B FACTOR Set factor of zoom PROGM-COM ( 2nd F PRGM A PRGM F FORM 1 RectCursor 2 PolarCursor 3 ExprON 4 ExprOFF 5 Y' ON 6 Y' OFF 7 Connect 8 Dot 9 Sequen 0 Simul ( VARS E TRIG 1 sin x 2 cos x 3 tan x 4 sin-1 x 5 cos-1 x 6 tan-1 x H RCL 1 RclWin 2 PreWin on Program screen) 1 Print 2" 3 Input 4 Wait 5 Rem 6 End VARS G STO 1 StoWin D EXP 1 10x 2 ex 3 log x 4 In x Press ENTER F HYP 1 sinh x 2 cosh x 3
Menu tree 4 EQ VAR ( VARS A ) A XY B XYT 1 Y1 2 Y2 3 Y3 4 Y4 5 Y5 6 Y6 7 Y7 8 Y8 9 Y9 0 Y0 WIN VAR ( VARS B BT 1 Tmin 2 Tmax 3 Tstep ( VARS C B STOT 1 Zm_Tmin 2 Zm_Tmax 3 Zm_Tstp ( VARS H MATRIX D SEQ 1 nMin 2 nMax 3 u(nMin) 4 v(nMin) 5 w(nMin) 6 PlotStart 7 PlotStep D STOSEQ 1 Zm_nMin 2 Zm_nMax 3 Zm_u(nMin) 4 Zm_v(nMin) 5 Zm_w(nMin) 6 Zm_PltStart 7 Zm_PltStep 1 RegEqn 2a 3b 4c 5d 6e 7r 8 r2 9 R2 0 resid C POINTS 1 x1 2 x2 3 x3 4 y1 5 y2 6 y3 7 Q1 8 Med 9 Q3 D TEST 01 p 02 z 03 t 04 2 05
Menu tree 5 STAT PLOT ( 2nd F STATPLOT ) A PLOT1 B PLOT2 C PLOT3 Stat plot1 Stat plot2 Stat plot3 Press ENTER Press ENTER Press ENTER OPTION ( 2nd F OPTION A CTRST B MEMCHK Press ENTER to detail ( ( SHIFT/CHANGE F MBOX 1 MBox • 2 MBox+ 3 MBox G S.D. 1 Scattr • 2 Scattr+ 3 Scattr H XYLINE 1 xyLine • 2 xyLine+ 3 xyLine SLIDESHOW 2 X X 1/X ex lnX sinX tanX X E RESET 1 default set 2 All memory D N.D. 1 NormDis E BOX 1 Box ) C NEW 0 screen Press ENTER Press ENTER ( C N.P.
Menu tree 6 SOLVER ( SOLVER on SOLVER screen 2nd F A METHOD B EQTN 1 Equation 2 Newton 3 Graphic TOOL ) ( 2nd F TOOL A NBASE C SAVE Press ENTER 1 2 3 4 5 6 7 8 9 0 ) B SYSTEM Calculate Hexadecimal Decimal Octal Binary C RENAME 1 2 3 4 5 6 7 8 9 0 22 33 44 55 66 Select number C POLY 22 33 Select degree Press ENTER Y= ( Y= ) RECT MODE PAR MODE Y1= Y2= Y3= Y4= Y5= Y6= Y7= Y8= Y9= Y0= X1T= Y1T= X2T= Y2T= X3T= Y3T= X4T= Y4T= X5T= Y5T= X6T= Y6T= FINANCE ( 2nd F A SOLVER FINANCE
Specifications Specifications Dimensions W x D x H (mm) 183 x 86 x 19.
EL-9650/9600c Graphing Calculator
Distributed by: SHARP CORPORATION OSAKA, JAPAN
