User Guide
Page 28
...display as shown below. • In the case of simultaneous equations (1(SIML)) and high-order equations (2(POLY)), solutions are output in natural display format (fractions, ', π are displayed in natural format) whenever possible. • In the case of Solver (3(SOLV)), you can use Math input/output mode natural input....; Math Input/Output Mode Input and Result Display in the EQUA Mode You can use the Math input/output mode in the EQUA mode for graph expression input in any mode except the RUN • MAT mode and e • ACT mode. mGRAPHvxv!x(')c ee-vv!x(')cee -bw 6(DRAW) Example...
...display as shown below. • In the case of simultaneous equations (1(SIML)) and high-order equations (2(POLY)), solutions are output in natural display format (fractions, ', π are displayed in natural format) whenever possible. • In the case of Solver (3(SOLV)), you can use Math input/output mode natural input....; Math Input/Output Mode Input and Result Display in the EQUA Mode You can use the Math input/output mode in the EQUA mode for graph expression input in any mode except the RUN • MAT mode and e • ACT mode. mGRAPHvxv!x(')c ee-vv!x(')cee -bw 6(DRAW) Example...
User Guide
Page 106
...you want to solve to obtain the solution. Lft and Rgt values are displayed for Upper and Lower to solve the equation. 1. The closer the difference between the Lft and Rgt values is G = 9.8 (m/s2). "Lft" and ... T = 2 (seconds) and gravitational acceleration is to reach height H. Use the following formula to solve for a high-order equation (such as it is written. • If you determine the value of any variable in a formula without having to define ... that are calculated using Newton's method. Select the SOLV (Solver) mode, and input the equation as ax2 + bx + c = 0). 4-4
...you want to solve to obtain the solution. Lft and Rgt values are displayed for Upper and Lower to solve the equation. 1. The closer the difference between the Lft and Rgt values is G = 9.8 (m/s2). "Lft" and ... T = 2 (seconds) and gravitational acceleration is to reach height H. Use the following formula to solve for a high-order equation (such as it is written. • If you determine the value of any variable in a formula without having to define ... that are calculated using Newton's method. Select the SOLV (Solver) mode, and input the equation as ax2 + bx + c = 0). 4-4
User Guide
Page 283
....) RUN • MAT mode Matrix Editor data EQUA mode simultaneous equation solution screen data EQUA mode high-order equation solution screen data DYNA mode graph screen data Matrix Editor Simul Equation Poly Equation Dynamic Graph TVM mode calculation solution screen data S • SHT mode spreadsheet...data CONICS mode graph screen data Graph Graph Editor Table Editor Conics Graph CONICS mode function list screen data STAT mode statistical graph screen data STAT mode List Editor data EQUA mode calculation solution screen data Conics Editor Stat Graph List Editor Solver RECUR mode ...
....) RUN • MAT mode Matrix Editor data EQUA mode simultaneous equation solution screen data EQUA mode high-order equation solution screen data DYNA mode graph screen data Matrix Editor Simul Equation Poly Equation Dynamic Graph TVM mode calculation solution screen data S • SHT mode spreadsheet...data CONICS mode graph screen data Graph Graph Editor Table Editor Conics Graph CONICS mode function list screen data STAT mode statistical graph screen data STAT mode List Editor data EQUA mode calculation solution screen data Conics Editor Stat Graph List Editor Solver RECUR mode ...