
Examples of Calculation Results Using Polar Coordinate Format (r ∠ θ)
Example 1: 2 ⋅ ('3 + i) = 2'3 + 2i = 4 ∠ 30 | (Angle Unit: Deg) | |||
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MATH |
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| CMPLX | Math |
2*(!3e+i)=
•With Linear format, the absolute value and argument are shown in two different lines.
Example 2: 1 + i = '2 ∠ 45 | (Angle Unit: Deg) | ||
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MATH |
| CMPLX | Math |
1+i=
• Argument θ is output in the range of
Specifying the Calculation Result Display Format
You can override complex number display settings and specify the format that should be used to display calculation results.
•To specify rectangular coordinate format for the calculation result, perform the following key operation at the end of the calculation. 12(CMPLX)4('a+bi)
•To specify polar coordinate format for the calculation result, perform
the following key operation at the end of the calculation. 12(CMPLX)3('r∠ θ )
Appendix <#049> 1 + i (= '2 ∠ 45) = 1.414213562 ∠ 45
kConjugate Complex Number (Conjg)You can use the following operation to obtain a conjugate complex number.
12(CMPLX)2(Conjg)
Appendix
<#050> Determine the conjugate of the complex number 2 + 3i.
kAbsolute Value and Argument (Abs, arg)You can use the following procedure to obtain the absolute value (Z) and argument (arg) on the Gaussian plane for a complex number of the format Z = a + bi.
1w(Abs); 12(CMPLX)1(arg)
Appendix
<#051> Obtain the absolute value and argument of 2 + 2i.
*1 Absolute Value | *2 Argument |