The usual rules apply: the numerator of the result is the product of the two numberators. Same for the denominator. If the numerator (for example) is a more complicated expression, you just do all the indicated operations.
To simplify complex fractions, first rewrite the complex fraction as a division of two fractions. Identify the numerator and denominator, and if necessary, find a common denominator for the fractions involved. Then, multiply both the numerator and the denominator by that common denominator to eliminate the fractions. Finally, simplify the resulting expression by reducing any common factors.
No, you cannot use models to multiply fractions!!
complex fractions can be multiplied when you have two fractions multiplied and equal a whole number.
When you divide by fractions, you invert and multiply.
yes. you multiply the numerator and denominator
You multiply the numerator and the denominator of the complex fraction by the complex conjugate of the denominator.The complex conjugate of a + bi is a - bi.
multiply and divide fractions!-.-
No, you cannot use models to multiply fractions!!
complex fractions can be multiplied when you have two fractions multiplied and equal a whole number.
They could be fractions in which the numerator or the denominator, or both, are complex numbers.
You multiply the fractions
When you add or subtract fractions you cross multiply and when you multiply or divide fractions you across multiply.
Yes you do.
When you divide by fractions, you invert and multiply.
yes. you multiply the numerator and denominator
Multiply top and bottom by the complex conjugate of the bottom complex number; this will make the bottom complex number into a real number which can then be made into fractions and simplified with the real part and the imaginary part (the multiplier of i [√-1]) of the multiplied out top number.
"Regular" fractions have integers for the numerator and denominator. Complex fractions have fractions at one or both of those spots.