Basic Operations with Complex Numbers - Algebra II

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Question

Add:

Answer

When adding complex numbers, add the real parts and the imaginary parts separately to get another complex number in standard form.

Adding the real parts gives , and adding the imaginary parts gives .

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Question

Subtract:

Answer

This is essentially the following expression after translation:

Now add the real parts together for a sum of , and add the imaginary parts for a sum of .

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Question

Multiply:

Answer must be in standard form.

Answer

The first step is to distribute which gives us:

$2-2i+3i-3i^{2}$

$2+i-3i^{2}=2+i+3=5+i$

which is in standard form.

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Question

Divide: $\frac{2-i}{3+2i}$

The answer must be in standard form.

Answer

Multiply both the numerator and the denominator by the conjugate of the denominator which is which results in

$\frac{\left ( 2-i \right )\left ( 3-2i \right )}{\left ( 3+2i \right )\left ( 3-2i \right )}$

The numerator after simplification give us $6-4i-3i+2i^{2}=6-7i+2i^{2}=4-7i$

The denominator is equal to $3^{2}-4i^{2}=9+4=13$

Hence, the final answer in standard form =

$\frac{4}{13}-\frac{7i}{13}$

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Question

Divide: $\frac{2+3i}{i}$

Answer must be in standard form.

Answer

Multiply both the numerator and the denominator by the conjugate of the denominator which is resulting in

$\frac{\left ( 2+3i \right )\left ( -i \right )}{\left ( i \right )\left ( -i \right )}$

This is equal to $\frac{-2i-{3i}^2}{-i^2}$

Since you can make that substitution of in place of in both numerator and denominator, leaving:

$\frac{-2i-3(-1)}{-(-1)}$

When you then cancel the negatives in both numerator and denominator (remember that , simplifying each term), you're left with a denominator of and a numerator of , which equals .

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Question

What is the absolute value of

Answer

The absolute value is a measure of the distance of a point from the origin. Using the pythagorean distance formula to calculate this distance.

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Question

Simplify the expression.

Answer

Combine like terms. Treat $\small i$ as if it were any other variable.

Substitute to eliminate $\small i^2$ .

Simplify.

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Question

Consider the following definitions of imaginary numbers:

Then,

Answer

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Question

$\frac{1-7i}{6-2i}=a-i$

Find .

Answer

Multiply the numerator and denominator by the numerator's complex conjugate.

$\frac{1-7i}{6-2i}\ast \frac{6+2i}{6+2i}=\frac{20-40i}{40}$

Reduce/simplify.

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Question

What is the value of ?

Answer

Recall that the definition of imaginary numbers gives that $i = \sqrt{-1}$ and thus that . Therefore, we can use Exponent Rules to write $i^4 = i^2 \cdot i^2 = -1\cdot-1 = 1$

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Question

What is the value of ?

Answer

When dealing with imaginary numbers, we multiply by foiling as we do with binomials. When we do this we get the expression below:

Since we know that we get which gives us .

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Question

Evaluate:

Answer

Use the FOIL method to simplify. FOIL means to mulitply the first terms together, then multiply the outer terms together, then multiply the inner terms togethers, and lastly, mulitply the last terms together.

The imaginary is equal to:

$\sqrt{-1}$

Write the terms for $i, i^2, \textup{and } i^3$ .

$i=\sqrt{-1}$

$i^3=i \times i^2=-\sqrt{-1}=-i$

Replace $i^2 \textup{ and } i^3$ with the appropiate values and simplify.

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Question

What is the value of $i^{42}$ , if $\small i$ = $\small \sqrt{-1}$ ?

Answer

We know that $\small i=\sqrt{-1}}$ . Therefore, $\small i^{2}=-1, i^{3}=-\sqrt{-1}, i^{4}=1$ . Thus, every exponent of $\small i$ that is a multiple of 4 will yield the value of $\small 1$ . This makes $\small i^{40} =1$ . Since $\small i^{42}=i^{40}ii$ , we know that $\small i^{42}=1ii=i^{2}=-1$ .

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Question

Answer

Combine like terms:

Distribute:

Combine like terms:

$\mathbf{8-6i}$

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Question

$\sqrt{-4}\sqrt{-25}\sqrt{-64}$

Answer

$\sqrt{-4}\sqrt{-25}\sqrt{-64}$

$\mathbf{-80i}$

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Question

Multiply:

Answer

Use FOIL to multiply the two binomials.

Recall that FOIL stands for Firsts, Outers, Inners, and Lasts.

Remember that

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Question

Rationalize the complex fraction: $\frac{2+i}{3-i}$

Answer

To rationalize a complex fraction, multiply numerator and denominator by the conjugate of the denominator.

$\frac{(2+i)(3+i)}{(3-i)(3+i)}$

$\frac{6+3i+2i+i^2}{9-3i+3i-i^2}$

$\frac{5+5i}{10}$

$\frac{1+i}{2}$

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Question

Multiply:

Answer

Distribute:

combine like terms:

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Question

Simplify:

Answer

Distribute the minus sign:

Combine like terms:

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Question

Simplify:

Answer

Use FOIL to multiply the binomials:

Change to -1:

Combine like terms:

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