Citizen SR-270XGR College manual

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Buen manual de instrucciones

Las leyes obligan al vendedor a entregarle al comprador, junto con el producto, el manual de instrucciones Citizen SR-270XGR College. La falta del manual o facilitar información incorrecta al consumidor constituyen una base de reclamación por no estar de acuerdo el producto con el contrato. Según la ley, está permitido adjuntar un manual de otra forma que no sea en papel, lo cual últimamente es bastante común y los fabricantes nos facilitan un manual gráfico, su versión electrónica Citizen SR-270XGR College o vídeos de instrucciones para usuarios. La condición es que tenga una forma legible y entendible.

¿Qué es un manual de instrucciones?

El nombre proviene de la palabra latina “instructio”, es decir, ordenar. Por lo tanto, en un manual Citizen SR-270XGR College se puede encontrar la descripción de las etapas de actuación. El propósito de un manual es enseñar, facilitar el encendido o el uso de un dispositivo o la realización de acciones concretas. Un manual de instrucciones también es una fuente de información acerca de un objeto o un servicio, es una pista.

Desafortunadamente pocos usuarios destinan su tiempo a leer manuales Citizen SR-270XGR College, sin embargo, un buen manual nos permite, no solo conocer una cantidad de funcionalidades adicionales del dispositivo comprado, sino también evitar la mayoría de fallos.

Entonces, ¿qué debe contener el manual de instrucciones perfecto?

Sobre todo, un manual de instrucciones Citizen SR-270XGR College debe contener:
- información acerca de las especificaciones técnicas del dispositivo Citizen SR-270XGR College
- nombre de fabricante y año de fabricación del dispositivo Citizen SR-270XGR College
- condiciones de uso, configuración y mantenimiento del dispositivo Citizen SR-270XGR College
- marcas de seguridad y certificados que confirmen su concordancia con determinadas normativas

¿Por qué no leemos los manuales de instrucciones?

Normalmente es por la falta de tiempo y seguridad acerca de las funcionalidades determinadas de los dispositivos comprados. Desafortunadamente la conexión y el encendido de Citizen SR-270XGR College no es suficiente. El manual de instrucciones siempre contiene una serie de indicaciones acerca de determinadas funcionalidades, normas de seguridad, consejos de mantenimiento (incluso qué productos usar), fallos eventuales de Citizen SR-270XGR College y maneras de solucionar los problemas que puedan ocurrir durante su uso. Al final, en un manual se pueden encontrar los detalles de servicio técnico Citizen en caso de que las soluciones propuestas no hayan funcionado. Actualmente gozan de éxito manuales de instrucciones en forma de animaciones interesantes o vídeo manuales que llegan al usuario mucho mejor que en forma de un folleto. Este tipo de manual ayuda a que el usuario vea el vídeo entero sin saltarse las especificaciones y las descripciones técnicas complicadas de Citizen SR-270XGR College, como se suele hacer teniendo una versión en papel.

¿Por qué vale la pena leer los manuales de instrucciones?

Sobre todo es en ellos donde encontraremos las respuestas acerca de la construcción, las posibilidades del dispositivo Citizen SR-270XGR College, el uso de determinados accesorios y una serie de informaciones que permiten aprovechar completamente sus funciones y comodidades.

Tras una compra exitosa de un equipo o un dispositivo, vale la pena dedicar un momento para familiarizarse con cada parte del manual Citizen SR-270XGR College. Actualmente se preparan y traducen con dedicación, para que no solo sean comprensibles para los usuarios, sino que también cumplan su función básica de información y ayuda.

Índice de manuales de instrucciones

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    File name: HDBR100DE04_Cover _front version : 2011/03/02 SIZE:140x75mm P ARTS NO. HDBR100DE04 (SR100D)[...]

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    E – 1 File name : SR100DCollege_E nglish_text_0531_f inal.doc version : 10/05/31 General Guide ................................................. 3  T urning on or off............................................. 3  Battery replacement ....................................... 3  Auto power-off function ................................. 3 ?[...]

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    E – 2 File name : SR100DCollege_E nglish_text_0531_f inal.doc version : 10/05/31  Probability .................................................... 14  Division with Quotient and Remainder ........ 14  Using CALC .................................................. 15  Other functions ( √ , 3 , X , x -1 , x 2 , x 3 , x y , Abs, RND, PP[...]

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    E – 3 File name : SR100DCollege_E nglish_text_0531_f inal.doc version : 10/05/31 General Guide  Turning on or off To turn the calculator on, press [ ON ]; To turn the calculator off, press [ 2nd ] [ OFF ].  Battery replacement The calculator is a dual pow er system which is pow ered by one button-type battery ( G13 or L1154) and a solar cel[...]

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    E – 4 File name : SR100DCollege_E nglish_text_0531_f inal.doc version : 10/05/31  Display readout The display comprises the entry line, the result line, and indicators. D 12369x 7532x 10 32 9 . 3 163308 x1 0 39 Entr y line In d i c at o r Result l in e Ma th c Entry line The calculator displ ays an entry of up to 99 digits. Entries begin on th[...]

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    E – 5 File name : SR100DCollege_E nglish_text_0531_f inal.doc version : 10/05/31 EQN : Use this mode to solve simultaneous linear equati ons with two or thr ee unknowns. TABLE : Use this mode to display a defined function in a tabular form. VERIF : Use this mode to perform the numerical comparison and check. PROP : Use this mode to perform ratio [...]

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    E – 6 File name : SR100DCollege_E nglish_text_0531_f inal.doc version : 10/05/31 W CONT X : Contrast Adjustment  Using Math Mode Press [ 2nd ] [ SET UP ] [ 1 ] to enter Math mode. W hile in math mode, the values for functions such as e d , A c b , log a b, Abs, 10 x , e X , √ , 3 , X 2 , X 3 , X 1 − , X y , x ....can be entered and display[...]

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    E – 7 File name : SR100DCollege_E nglish_text_0531_f inal.doc version : 10/05/31 You can continue moving the cursor by [ W ] or [ X ] to display previous input steps and editing v alues or commands for subsequent execution. See Exampl e 4. The operation records in Memory are clear ed each time when you turn off the calculator, press [ ON ] key, p[...]

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    E – 8 File name : SR100DCollege_E nglish_text_0531_f inal.doc version : 10/05/31  Order of opera tions Each calculation is performed from left to rig ht and in the following order of precedence: 1) Ex pression inside parentheses. 2) Functi ons with parentheses: P R, R P, PPCM, PGC D sin, cos, tan, sin –1 , cos –1 , tan –1 , sinh, cosh, t[...]

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    E – 9 File name : SR100DCollege_E nglish_text_0531_f inal.doc version : 10/05/31 tanh x 0 ≦ x < 1 x 10 100 sinh –1 x 0 ≦ x < 5 x 10 99 cosh –1 x 1 ≦ x < 5 x 10 99 tanh –1 x 0 ≦ x < 1 log x, ln x 0 < x < 1 x 10 100 10 x –1 x 10 100 < x < 100 e x –1 x 10 100 < x ≦ 230.2585092 x 0 ≦ x < 1 x 10 100 x 2[...]

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    E – 10 File name : SR100DCollege_E nglish_text_0531_f inal.doc version : 10/05/31 ST A T 1 – VAR : a. n ≦ 80 lines (when FREQ column is OFF) b. n ≦ 40 lines (when FREQ column is ON) 2 – VAR : a. n ≦ 40 lines (when FREQ column is OFF) b. n ≦ 26 lines (when FREQ column is ON)  Error conditions Error message will appear on the display[...]

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    E – 11 File name : SR100DCollege_E nglish_text_0531_f inal.doc version : 10/05/31 Results equal to or gr eater than 10 10 or results less than 10 –9 are displayed in ex ponential form. See Example 9.  Parentheses calculation s Operations inside parentheses are alw ays executed first. The calculator Math mode can use up to 24 lev els and Line[...]

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    E – 12 File name : SR100DCollege_E nglish_text_0531_f inal.doc version : 10/05/31  A nsw er Function Answer function stores the most recently calculated result. It is retained even after the power is turned off. Once a numeric value or numeric expression i s entered and [ M+ ], [ 2nd ] [ M– ], [ RCL ], [ 2nd ] [ STO ] or [ = ] is pressed, th[...]

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    E – 13 File name : SR100DCollege_E nglish_text_0531_f inal.doc version : 10/05/31 (Note) : 1. “ ” next to the resulting fraction signifies that the fraction is not yet in simplest form. 2. “Fraction irreduc” appears that further simplification is impossible.  A ngle unit conversions The angle unit ( Deg , Rad , Grad ) is set by pressin[...]

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    E – 14 File name : SR100DCollege_E nglish_text_0531_f inal.doc version : 10/05/31  Coordinates t ransformation Rectangular Coordinates Polar Coordinates x + y i = r (c os θ + i sin θ ) (Note) : When using those keys, make sure the calc ulator is set for the angle unit you w ant. The calculator can perform the conversion between rectang ular [...]

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    E – 15 File name : SR100DCollege_E nglish_text_0531_f inal.doc version : 10/05/31  Using CA LC CALC function lets you tempor arily store a mathematical ex pression that contain variables, w hich you can then recall and execute in the COMP Mode. The follow ing describes the types of expressi ons you can save with CALC . See Example 38. 1) Expre[...]

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    E – 16 File name : SR100DCollege_E nglish_text_0531_f inal.doc version : 10/05/31 3: _+CX 2 Quadratic Regression Y = A + BX + C X 2 4: ln X Logarithmic R egression Y = A + B lnX 5: e ^X e Exponential Regression Y = A • e BX 6: A•B^ X ab Exponential Regression Y = A • B X 7: A•X^ B Power Regression Y = A • X B 8: 1/X Inverse Regressi on [...]

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    E – 17 File name : SR100DCollege_E nglish_text_0531_f inal.doc version : 10/05/31 n [5: Var] [ 1 ] Number of the x values entered x [5: Var] [ 2 ] Mean of the x values x σ n [5: Var] [ 3 ] Population standard deviation of x values x σ n-1 [5: Var] [ 4 ] Sample standard deviation of x values minX [6: MinMax] [ 1 ] Minimum of x-value maxX [6: Min[...]

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    E – 18 File name : SR100DCollege_E nglish_text_0531_f inal.doc version : 10/05/31 For Quadratic Regression ( _+CX 2 ) only : C [7: Reg] [ 3 ] Qua dra tic co effi cie nt C of the re gr ess ion coefficients 1 ˆ x [7: Reg] [ 4 ] Estimated value of x1 2 ˆ x [7: Reg] [ 5 ] Estimated value of x2 y ˆ [7: Reg] [ 6 ] Estimated value of y You also can a[...]

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    E – 19 File name : SR100DCollege_E nglish_text_0531_f inal.doc version : 10/05/31 You can use the follow ing procedure in the EQN mode to solve simultaneous linear equati ons with two or three unknowns. 1. Press [ MODE ] [3] [1] or [ MODE ] [3] [2]. 2. Enter the value for each coefficient (a 1 , etc.) and press [ = ].  To change a coefficient [...]

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    E – 20 File name : SR100DCollege_E nglish_text_0531_f inal.doc version : 10/05/31 KEY IN DISPLA Y [ 2nd ] [ VERIFY ] 1 : = 3: > 5: ≧ 2: ≠ 4: < 6: ≦ Proportionality Calculat ions Use PROP ( [ MODE ] 6 ( PROP ) ) mode for proportionality calculation. The PROP mode lets you determine the val ue of X in the proportionality expression a:b=[...]

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    EX – 1 File name : SR100DCollege_E_Example_1 10302_HDBR100DE04.doc version : 10/1 1/23 Example Example 1 ¾ 【 Math 】 : 1 3 2 + 6 5 = 2 5 Math D S 1 + 3 2 6 5 [ 2nd ] [ A c b ] 1 [ X ] 2 [ T ] 3 [ X ] [ + ] [ e d ] 5 [ T ] 6 [ X ] [ = ] 2 5 Example 2 ¾ 【 Math 】 : ( 1+ 2 ) 2 x 2= 6 + 4 2 Math D S ( 1 + 2 ) 2 x2 [ ( ] 1 [ + ] [ ] 2 [ X ] [ [...]

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    EX – 2 File name : SR100DCollege_E_Example_1 10302_HDBR100DE04.doc version : 10/1 1/23 Math D S 12 x 4 57 ▍ [ X ] [ X ] [ X ] [ X ] [ DEL ] 7 Math D S 12 x 4 57 [ = ] 5484 Example 5 ¾ (1) 【 Math 】 : Put the value 30 into var iable A Math D S 30 Æ A 30 [ 2nd ] [ STO ] [ A ] 30 ¾ (2) 【 Math 】 : Multiply 5 to v ariable A, then put the r[...]

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    EX – 3 File name : SR100DCollege_E_Example_1 10302_HDBR100DE04.doc version : 10/1 1/23 Math D S 0 Æ M 0 [ 2nd ] [ STO ] [ M ] 0 Example 7 ¾ 【 Math 】 : 7 + 5 x 4 = 27 Math D S 7+5 x 4 7 [ + ] 5 [ x ] 4 [ = ] 2 7 Example 8 ¾ 【 Math 】 : 2.75 x 10 – 5 = 400000 11 Math D S 2 . 7 5 x 1 0 - 5 2.75 [ x10 x ] [ (–) ] 5 [ = ] 400000 11 ¾ ?[...]

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    EX – 4 File name : SR100DCollege_E_Example_1 10302_HDBR100DE04.doc version : 10/1 1/23 Example 11 ¾ 【 Math 】 : ( 2 + 3 ) x 10 2 = 500 Math D S (2 + 3) x x1 0 2 [ ( ] 2 [ + ] 3 [ ) ] [ x ] [ x1 0 x ] 2 [ = ] 5 00 Example 12 ¾ 【 Math 】 : 120 x 30 % = 36 Math D S 120 x 30 % 120 [ x ] 30 [ 2nd ] [ % ] [ = ] 36 Example 13 ¾ 【 Math 】 : 8[...]

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    EX – 5 File name : SR100DCollege_E_Example_1 10302_HDBR100DE04.doc version : 10/1 1/23 D S 6 7 [ ENG ] 8 5 7 . 142857 1x1 0 –3 D S 6 7 [ 2nd ] [ e ENG ] [ 2nd ] [ e ENG ] 0 . 0 008571 42x 1 0 3 D S 6 7 [ F _` D ] 6 7 Example 15 ¾ 【 Math 】 : 123 + 456 = 579 ´ 789 – 579 = 210 M a t h D S 123+ 456 [ 2nd ] [ SET UP ] [ 1 ] (MthIO) 123 [ + ][...]

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    EX – 6 File name : SR100DCollege_E_Example_1 10302_HDBR100DE04.doc version : 10/1 1/23 Example 19 ¾ 【 Line 】 : 5 . 4 2 1 4 2 9 4 2 4 = = = D S 4 2 4 4 [ d / e ] 2 [ d / e ] 4 [ = ] 9 2 D S 4 2 4 [ 2nd ] [ A b / c _` d / e ] 4 1 2 D S 4 2 4 [ F _` D ] 4 . 5 D S 4 2 4 [ F _` D ] 9 2 Example 20 ¾ 【 Line 】 : 55 . 12 75 . 3 5 4 8 = + D S 8 4[...]

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    EX – 7 File name : SR100DCollege_E_Example_1 10302_HDBR100DE04.doc version : 10/1 1/23 D S 31 9 ► Sim p After 2 second 31 9 Example 22 ¾ 【 Line 】 : 163 64 326 128 = (F=2) D Non simplifiable [A C ] : Ca n c e l 128 [ d / e ] 326 [ 2nd ] [ SIMP ] 9 [ = ] [ W ][ X ] : Go t o D S 12 8 326 ► Si m p F= 2 [ ◄ ] [ DEL ] [ = ] 64 163 Exampl[...]

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    EX – 8 File name : SR100DCollege_E_Example_1 10302_HDBR100DE04.doc version : 10/1 1/23 Example 25 ¾ 【 Line 】 : 2 { 45 l 10.5 l l + 25 l 30 l l = 3.17791666667 D S 2  45  10 . 5  +0  25 Z 2 [ DMS ] 45 [ DMS ] 10.5 [ DMS ] [ + ] 0 [ DMS ] 25 [ DMS ] 30 [ DMS ] [ = ] 3 { 10 l 40 . 5 l l D S 2  45  10 . 5  +0  25 Z [ 2nd [...]

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    EX – 9 File name : SR100DCollege_E_Example_1 10302_HDBR100DE04.doc version : 10/1 1/23 Example 30 ¾ 【 Line 】 : sinh –1 7 = 2.644120761 D S sin h –1 (7 [ HYP ] [ 4 ] (sinh –1 ) 7 [ = ] 2 . 6 44120761 Example 31 ¾ 【 Line 】 : If x = 5, y = 30, w hat are r , ? Ans : r = 30.41381265, = 80.53767779 o D S Po l ( 5 , 30 r = 3 0 . 4 138126[...]

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    EX – 10 File name : SR100DCollege_E_Example_1 10302_HDBR100DE04.doc version : 10/1 1/23 Example 35 ¾ 【 Math 】 : 5 ! = 120 Math D S 5! 5 [ 2nd ] [ x ! ] [ = ] 120 Example 36 ¾ 【 Line 】 : Generates a random number between 0.000 ~ 0.999 D S Ra n # [ 2nd ] [ SET UP ] [ 2 ] (LineIO) [ 2nd ] [ RANDM ] [ = ] 0 . 44 9 Example 37 ¾ 【 Line 】[...]

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    EX – 11 File name : SR100DCollege_E_Example_1 10302_HDBR100DE04.doc version : 10/1 1/23 Example 39 ¾ 【 Line 】 : 8 . 0 .25 1 1 = D S 1 . 25 –1 1.25 [ x -1 ] [ = ] 0 . 8 Example 40 ¾ 【 Line 】 : 139 = 5 + 125 + 21 + 4 + 2 3 3 2 D S 2 2 + √ ( 4 +21)+ 3 (1 Z 2 [ x 2 ] [ + ] [ √ ] 4 [ + ] 21 [ ) ] [ + ] [ 2nd ] [ 3 ] 125 [ ) ] [ + ] 5 [[...]

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    EX – 12 File name : SR100DCollege_E_Example_1 10302_HDBR100DE04.doc version : 10/1 1/23 Example 44 ¾ 【 Math 】 : PPCM ( 12, 56 ) = 168 M a t h D S PPC M ( 1 2 , 56 [ 2nd ] [ PPCM ] 12 [ 2nd ] [ , ] 56 [ = ] 16 8 Example 45 ¾ 【 Math 】 : PGCD ( 12 , 56 ) = 4 M a t h D S PGCD ( 1 2 , 56 [ 2nd ] [ PGCD ] 12 [ 2nd ] [ , ] 56 [ = ] 4 Examp[...]

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    EX – 13 File name : SR100DCollege_E_Example_1 10302_HDBR100DE04.doc version : 10/1 1/23 M a t h D S DISP Bx 1 3 [ = ] 195 M a t h D S 180 ÷ B [ = ] 12 Example 49 ¾ Enter X and Y f or the followi ng data using linear regr ession (A+BX), then find out n= 8, x = 2.875, y = 6.875, x σ n = 1.053268722, y σ n-1= 1.125991626, maxX = 4. Σ x 2 = 75, [...]

  • Página 35

    EX – 14 File name : SR100DCollege_E_Example_1 10302_HDBR100DE04.doc version : 10/1 1/23 ST AT D x [ 2nd ] [ ST A TV AR ] [ 5 ] [ 2 ] [ = ] 2 . 875 ST AT D y [ 2nd ] [ ST A TV AR ] [ 5 ] [ 5 ] [ = ] 6 . 875 S T A T D x σ n [ 2nd ] [ ST A TV AR ] [ 5 ] [ 3 ] [ = ] 1 . 0 53268722 ST AT D y σ n- 1 [ 2nd ] [ ST A TV AR ] [ 5 ] [ 7 ] [ = ] 1 . 125991[...]

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    EX – 15 File name : SR100DCollege_E_Example_1 10302_HDBR100DE04.doc version : 10/1 1/23 M a t h D a b c 1 3 5 5 2 1 - 4 1 3 3 [ = ] 5 [ = ] 5 [ = ] 1 [ = ] [ (-) ] 4 [ = ] 13 [ = ] 13 M a t h D T X= [ = ] 5 M a t h D S Y= [ = ] -2 Example 51 ¾ 【 Math 】 : 3 Z , 2 Y , 1 X 13 Z Y 7 X 2 2 Z Y 3 X 5 23 Z 6 Y 2 X = = = ⇒ ⎪ ⎩ ⎪ ⎨ ⎧ = ?[...]

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    EX – 16 File name : SR100DCollege_E_Example_1 10302_HDBR100DE04.doc version : 10/1 1/23 Example 52 Math D f ( X ) = ▍ [ MODE ] [ 4 ] ( T ABLE ) Math D f ( X ) =2X 2 +X+ 1 ▍ 2 [ ALPHA ] [ X ] [ X 2 ] [ + ] [ ALPHA ] [ X ] [ + ] 1 Math D St a r t ? [ = ] 1 Math D En d ? 5 [ = ] 5 Math D St e p? 20 [ = ] 1 Math D XF ( X ) 1 5 5 6 2 8 13 7 31 1 2[...]

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    EX – 17 File name : SR100DCollege_E_Example_1 10302_HDBR100DE04.doc version : 10/1 1/23 Example 54 ¾ 【 Line 】 : 1 in = 2.54 cm, get 10 in = 25.4 cm 1 : a/b = X / d [ 2nd ] [ SET UP ] 2 (LineIO) [ MODE ] [ 6 ] ( PROP ) 2 : a/b = c / X D abc [ 0 0 0] a/b = c / X 2 (a/b=c/X) 0 D abc [ 1 2 . 54 1 0 ] a/b = c / X 1 [ = ] 2.54 [ = ] 10 [ = ] 10 D [...]

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    EX – 18 File name : SR100DCollege_E_Example_1 10302_HDBR100DE04.doc version : 10/1 1/23[...]

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    EX – 19 File name : SR100DCollege_E_Example_1 10302_HDBR100DE04.doc version : 10/1 1/23[...]

  • Página 41

    File name: HDBR100DE04_Cover _back version : 2011/03/02 SIZE:140x75mm P ARTS NO. HDBR100DE04 (SR100D)[...]