Before we proceed with the calculator, let's make sure we know what's going on. If you need to brush up, here is a fantastic link. Also, note that the complex conjugates are:
A* = 2.5 - (-)j3.8 = 2.5 + j3.8 and C* = 4.1<-48°.
Let's say we have four equations of complex numbers. Two are in rectangular form and two are in polar form.
A = 2.5 - j3.8 B = -1.7 + j2.3 C = 4.1 <48° D = 2.5 <-6°
Now, to start, you must also know that a) you cannot multiply or divide complex coordinates in rectangular form and b) you cannot add or subtract complex coordinates in polar form directly--that's what your calculator is for you big dummy!
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For this section we will give our answers in rectangular form.
Express C in rectangular form: C = 2.74 + j3.05
On your calculator:
NOTE
- We set the mode to the form that we want our answers in FIRST.
- Set up your environment:
- [MODE] >> [scroll down to 'Complex Format'] >> [right arrow ('>')] >> [scroll to 'RECTANGULAR' and press enter OR press 2] >> [enter]
- [MODE] >> [scroll down to 'Angle'] >> [right arrow ('>')] >> [scroll to 'DEGREE' and press enter OR press 2] >> [enter]
- If not at your home screen, press [HOME]
- Enter:
NOTE
- (make the '<' by pressing [2ND] >> [EE])
- (4.1<48) [enter]
For this section we will give our answers in polar form.
Express A in polar form: A = 4.5 <-56.7°
On your calculator:
NOTE
- We set the mode to the form that we want our answers in FIRST.
- Set up your environment:
- [MODE] >> [scroll down to 'Complex Format'] >> [right arrow ('>')] >> [scroll to 'POLAR' and press enter OR press 3] >> [enter]
- [MODE] >> [scroll down to 'Angle'] >> [right arrow ('>')] >> [scroll to 'DEGREE' and press enter OR press 2] >> [enter]
- If not at your home screen, press [HOME]
- Enter:
NOTE
- (make the i by pressing [2ND] >> [CATALOG])
- 2.5 - i3.8 [enter]
Now, if you can convert polar form to rectangular form and vice versa, you are in good shape!
Obviously, I can't go through each permutation for you (that would be 32 different combinations). So, I will show an addition problem and a multiplication problem.
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For this section we will add two expressions in polar form and express the answer in rectangular form.
C + D = 4.1<48° + 2.5<-6°
On your calculator (assuming you followed along up above, I will just bust out the steps in a direct format, omit steps as you see fit):
- [MODE] >> [scroll down to 'Complex Format'] >> [right arrow ('>')] >> [scroll to 'RECTANGULAR' and press enter OR press 2] >> [enter]
- [MODE] >> [scroll down to 'Angle'] >> [right arrow ('>')] >> [scroll to 'DEGREE' and press enter OR press 2] >> [enter]
- (4.1<48) + ( 2.5<-6) [enter]
- answer: 5.2 + j2.8
For this section we will multiply two expressions in rectangular form and express the answer in polar form.
A * B = 2.5 - j3.8 * -1.7 + j2.3
On your calculator:
- [MODE] >> [scroll down to 'Complex Format'] >> [right arrow ('>')] >> [scroll to 'POLAR' and press enter OR press 3] >> [enter]
- [MODE] >> [scroll down to 'Angle'] >> [right arrow ('>')] >> [scroll to 'DEGREE' and press enter OR press 2] >> [enter]
- 2.5 - i3.8 * -1.7 + i2.3
- answer: 9.1<74.1°
Notes:
- polar coordinates must have parenthesis around them (i.e. '(3.4<45)' )
- You can also use the menus to convert rectangular coordinates to polar coordinates and vice versa:
- (3.4<45) [2ND] [5] [scroll to 'MATRIX' and press right arrow or press 4] [scroll to Vector ops and press right arrow] [scroll to 'arrow' Rect] [enter]
- answer: 3.4 + j.3
- setting up your environment in the beginning because you know what form you want your answer in helps out a lot
- You can also convert those nasty trigonometric values into real numbers by simply multiplying your answer by 1.0 (e.g. ans*1.0)
- Here is a link to the dummies books for more info.
- Also, note the order of operations for your calc. If you have to multiply a bunch of stuff and divide it by something, don't waste time with the parenthesis. The TI-89 will multiply first and then divide.
- Another neat trick. Say you are looking to get the magnitude of a vector in polar coordinates to use in your next calculation (e.g. the vector 25<-43.0). You can grab the absolute value of the vector (if ans = 25<-43.0) by hitting:
- [2nd] [5]
- [right arrow]
- [abs(]
- [2nd] [(-)] (this should give you abs(ans()) = 25)
