User Guide
Page 25
...(, tanh(, sinh-1(, cosh-1(, tanh-1(, log(, ln(, e^(, 10^(, ^(, '(, 3'(, x'(, Abs(, Pol(, Rec(, Rnd( Example: sin 30 = z 1. t 2. Then simply press the E key to input the argument and the closing parenthesis ( ) ). "sin(" (fc), then E. 3. 30)E • Some commonly used functions can also be input using a direct key operation. The calculator automatically judges the calculation priority sequence for addition...
...(, tanh(, sinh-1(, cosh-1(, tanh-1(, log(, ln(, e^(, 10^(, ^(, '(, 3'(, x'(, Abs(, Pol(, Rec(, Rnd( Example: sin 30 = z 1. t 2. Then simply press the E key to input the argument and the closing parenthesis ( ) ). "sin(" (fc), then E. 3. 30)E • Some commonly used functions can also be input using a direct key operation. The calculator automatically judges the calculation priority sequence for addition...
User Guide
Page 50
... PMT, FV, P/Y, and C/Y are also used by arithmetic and function operations in the CMPD Mode. • The values of calculation, first use Configuring Settings (page E-16) to another mode. A CMPD Mode Financial Calculation Variables (VARS) • Variables n, I % G 0 PV = -α × PMT - β γ ...× FV PMT = - γ × PV - α β × FV FV = - γ × PV - α β × PMT { } log (1+ iS) ×...
... PMT, FV, P/Y, and C/Y are also used by arithmetic and function operations in the CMPD Mode. • The values of calculation, first use Configuring Settings (page E-16) to another mode. A CMPD Mode Financial Calculation Variables (VARS) • Variables n, I % G 0 PV = -α × PMT - β γ ...× FV PMT = - γ × PV - α β × FV FV = - γ × PV - α β × PMT { } log (1+ iS) ×...
User Guide
Page 100
... operations and the values this section are performed in functions. • Certain function calculations may take some time to display calculation results. Function Calculations This section explains how to use the calculator's built-in the COMP Mode (g). The following functions. See "Configuring Settings" (... you want to use to input. E-98 You can use . FC-200V Rnd(, sin(, cos(, tan(, x2, '(, ^(, e^(, ln( FC-100V Rnd(, sin(, cos(, tan(, e^(, 10^(, ^(, ln(, log(, x'( All calculations in this calculator uses for more information. k Pi (π) and Natural Logarithm Base...
... operations and the values this section are performed in functions. • Certain function calculations may take some time to display calculation results. Function Calculations This section explains how to use the calculator's built-in the COMP Mode (g). The following functions. See "Configuring Settings" (... you want to use to input. E-98 You can use . FC-200V Rnd(, sin(, cos(, tan(, x2, '(, ^(, e^(, ln( FC-100V Rnd(, sin(, cos(, tan(, e^(, 10^(, ^(, ln(, log(, x'( All calculations in this calculator uses for more information. k Pi (π) and Natural Logarithm Base...
User Guide
Page 102
...)E k Exponential Functions and Logarithmic Functions • For the logarithmic function "log(", you input only a single value, a base of 10 is used for the calculation. • "ln(" is a natural logarithm function with base e. t 2. "cos-1" (fc), then E. 3. t 2. If you can specify base m using the syntax "log (m, n)". "cos-1" (fc), then E. 3. z (15(π)/2) 1G(DRG')2(r)E 501G(DRG') 3(g)E Example 2: cos...
...)E k Exponential Functions and Logarithmic Functions • For the logarithmic function "log(", you input only a single value, a base of 10 is used for the calculation. • "ln(" is a natural logarithm function with base e. t 2. "cos-1" (fc), then E. 3. t 2. If you can specify base m using the syntax "log (m, n)". "cos-1" (fc), then E. 3. z (15(π)/2) 1G(DRG')2(r)E 501G(DRG') 3(g)E Example 2: cos...
User Guide
Page 103
"log(" (fc), then E. 3. 21)(,)16)E Example 2: log16 = 1.204119983 1. t 2. "ln(" (fc), then E. 3. Example 1: log216 = 4 1. t 2. t 2. "10^(" (fc), then E. 3. 3)E E-101 "e^(" (fc), then E. 3. 10)E k Power Functions and Power Root Functions Example 1: 1.2 × 103 = 1200 1. 1.2*t 2. "ln(" (fc), then E. 3. 90)E Example 4: ln e = 1 1. "log(" (fc), then E. 3. 16)E A base of 10 (common logarithm) is used if no base is specified. S5(e))E Example 5: e10 = 22026.46579 1. t 2. t 2. Example 3: ln 90 (= loge90) = 4.49980967 1.
"log(" (fc), then E. 3. 21)(,)16)E Example 2: log16 = 1.204119983 1. t 2. "ln(" (fc), then E. 3. Example 1: log216 = 4 1. t 2. t 2. "10^(" (fc), then E. 3. 3)E E-101 "e^(" (fc), then E. 3. 10)E k Power Functions and Power Root Functions Example 1: 1.2 × 103 = 1200 1. 1.2*t 2. "ln(" (fc), then E. 3. 90)E Example 4: ln e = 1 1. "log(" (fc), then E. 3. 16)E A base of 10 (common logarithm) is used if no base is specified. S5(e))E Example 5: e10 = 22026.46579 1. t 2. t 2. Example 3: ln 90 (= loge90) = 4.49980967 1.
User Guide
Page 136
...-1(, sinh(, cosh(, tanh(, sinh-1(, cosh-1(, tanh-1( log(, ln(, e^(, 10^(, '(, 3'( Abs( Rnd( 2. E-134 Function with parentheses (2'(3), Asin(30), etc.) 7. Addition and subtraction: +, - If you want to square the value -2, for each individual command. 1. Technical Information k Calculation Priority Sequence The calculator performs calculations according to a calculation priority sequence. • Basically, calculations are performed from left to input: (-2)2. If...
...-1(, sinh(, cosh(, tanh(, sinh-1(, cosh-1(, tanh-1( log(, ln(, e^(, 10^(, '(, 3'( Abs( Rnd( 2. E-134 Function with parentheses (2'(3), Asin(30), etc.) 7. Addition and subtraction: +, - If you want to square the value -2, for each individual command. 1. Technical Information k Calculation Priority Sequence The calculator performs calculations according to a calculation priority sequence. • Basically, calculations are performed from left to input: (-2)2. If...
User Guide
Page 140
...; x 1 ҂ 10100 x2 ȊxȊ 1҂ 1050 1/x ȊxȊ 1҂ 10100 ; E-138 m, n are integers) However: -1҂10100 1/x logȊyȊ100 • Precision is basically the same as that described under "Calculation Range and Precision" on page E-137. • ^(xy), x'y, 3', x!, nPr, nCr type functions require consecutive internal...
...; x 1 ҂ 10100 x2 ȊxȊ 1҂ 1050 1/x ȊxȊ 1҂ 10100 ; E-138 m, n are integers) However: -1҂10100 1/x logȊyȊ100 • Precision is basically the same as that described under "Calculation Range and Precision" on page E-137. • ^(xy), x'y, 3', x!, nPr, nCr type functions require consecutive internal...