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Example Questions
Example Question #271 : College Algebra
Determine the partial fraction decomposition of
Now we can rewrite it as such
Now we need to get a common denominator.
Now we set up an equation to figure out and .
To solve for , we are going to set .
To find , we need to set
Thus the answer is:
Example Question #2 : Adding And Subtracting Fractions
Add:
To add rational expressions, you must find the common denominator. In this case, it's .
Next, you must change the numerators to offset the new denominator.
becomes and becomes .
Now you can combine the numerators: .
Put that over the denomiator and see if you can simplify/factor further. In this case, you can't.
Therefore, your final answer is:
.
Example Question #2 : Adding And Subtracting Fractions
Subtract:
To subtract rational expressions, you must first find the common denominator, which in this case is . That means we only have to adjust the first fraction since the second fraction has that denominator already.
Therefore, the first fraction now looks like:
.
Now that the denominators are the same, combine numerators:
.
Now, put that over the denominator and see if you can simplify any further.
In this case, you can't, so your final answer is:
.
Example Question #51 : Fractions
Add:
In order to add the numerators of the fractions, we need to find the least common denominator.
The least common denominator is:
We will need to multiply the numerator and denominator by to match the denominators of both fractions.
Simplify the fraction.
Combine the two fractions.
The answer is:
Example Question #272 : College Algebra
Add:
The rules for adding fractions containing unknowns are the same as for fractions containing explicit numbers, so you can guide yourself by recalling how you would proceed adding fractions such as,
As you know you need to write them with a common denominator. In this case the least common denominator is . So simply multiply the numerator and denominator of each fraction by the denominator of the other fraciton.
Notice that and are equal to one, this ensures that we are not changing the value of the fractions, we are changing only the representation of the value.
Similairily, the procedure for an algebraic expression containing unknowns parallels this idea,
Now we can add the numerators directly since we now have both terms expressed with a common denominator, .
Example Question #5 : Partial Fractions
Write the rational function as a sum of terms with linear denominators using a partial fraction decomposition.
Not enough information to find , , or
(1.a)
1) First factor the denominator as much as possible; characterize the denominator and write the appropriate expansion:
The denominator is a product of linear terms, so the partial fraction expansion will have the form,
(1.b)
2) Write a system of 3-equations and 3-unknowns in order to determine A,B,and C in the partial fraction expansion (equation 1.b).
If we were to take equation (1.b) and add each fraction under a common denominator , the numerator would have the form,
(2.a)
Distribute and multiply the 's,
(2.b)
3) Find the constants A, B, and C.
To find , , and simply expand and collect like terms (there are , , and constant terms) then compare to the original numerator .
For the terms with we must have,
So for we have,
(3.a)
For the -terms we have,
for we have,
(3.b)
For the constant term we have,
(3.c)
Right away we can read off the solution for from equation (3.c) Substitute into (3.a) and (3.b)
4) Solve for the remaining unknown constants B and C,
The system:
(4.a)
(4.b)
In order to remove the fraction it would be convenient to solve this after multiplying both equations by :
(4.c)
(4.d)
In order to make even more simple, multiply equation (4.c) by and solve for in terms of as follows,
Substitute into (4.d),
Now we can use this value for to find that .
Finally, plug in the values for , , and we obtained into equation (1.b).
Example Question #6 : Partial Fractions
What is the partial fraction decomposition of
Factor the denominator:
Multiply both sides of the equation by
Let :
Let :
Example Question #3 : Partial Fractions
What is the partial fraction decomposition of the following:
Factor the denominator:
Multiply both sides of the equation by
Let :
Let :
Example Question #273 : College Algebra
Find A and B in the expression
Take the expression and multiply both sides by . This transforms the equation into the following:
To solve for A we want to get rid of the B. So we set x equal to 1:
Similarly, we can get rid of A by setting x equal to -2:
Example Question #1 : Review And Other Topics
Simplify the expression:
Cannot be simplified
Begin by distributing the exponent through the parentheses. The power rule dictates that an exponent raised to another exponent means that the two exponents are multiplied:
Any negative exponents can be converted to positive exponents in the denominator of a fraction:
The like terms can be simplified by subtracting the power of the denominator from the power of the numerator: