assignment 7

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In the first place you need to correct your signs of grouping.  You numerator and denominator need to be grouped:

 

(x^4+x^3-x^2+x-1) /  ( x^3(x^2+1) ).

 

The expression as you give it would is displayed according to the order of operations as follows:

 

whereas the expression (x^4+x^3-x^2+x-1) /  ( x^3(x^2+1) ) is displayed as

 

,

which is what you intend.

 

Now to answer your question:

 

x^3 is a factor of the denominator, but it's not a factor of the numerator. For example x^3 won't divide into -1.

[ x^4 + x^3 - x^2 + x - 1 ] / [(x^3)(x^2 + 1)] means

x^4 / [(x^3)(x^2 + 1)] + x^3 / [(x^3)(x^2 + 1)] - x^2 / [(x^3)(x^2 + 1)] + x / [(x^3)(x^2 + 1)] - 1 / [(x^3)(x^2 + 1)],

by the distributive law.  This would permit some simplification:

x^3 would divide out of the first term x^4 / [(x^3)(x^2 + 1)], leaving x / (x^2 + 1)

x^3 would also divide out of the second term x^3 / [(x^3)(x^2 + 1)], leaving 1 / (x^2 + 1).

However x^3 would not divide out of the remaining three terms.

 

STUDENT QUESTION

 

 I had some trouble with this problem. I looked at your answer and I just could not figure out how you come up with the

single x in the step x^3+x-x^2-1+x^4 / (x^3)x^2+1

Starting with

(x-1)(x^2+1)/[ (x^3)(x^2+1)] + x^4/ [(x^3)(x^2+1)]

we multiply (x-1)(x^2+1), which is the numerator of the first fraction, to get x(x^2+1) - 1(x^2+1) = x^3 + x - x^2 - 1, which we write in the order x^3 - x^2 + x - 1.

Thus our expression becomes

(x^3 - x^2 + x - 1) [ (x^3)(x^2+1)] + x^4/ [(x^3)(x^2+1)] .

We continue by adding the numerators of the two fractions, which now have a common denominator, as indicated in the given solution.

 

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Self-critique (if necessary):ok

 

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Self-critique Rating:ok

 

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Question:

 

*   R.7.58 (was R.7.54). How did you find the LCM of x - 3, x^3 + 3x and x^3 - 9x, and what is your result?

 

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Your solution:

first factor everything as much as they can be. x-3 stays the same, but x^3 + 3x becomes x(x^2+3) and x^3 - 9x becomes x(x+3)(x-3)

so LCM= x(x^2+3)(x+3)(x-3)

 

confidence rating #$&*: 3

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Given Solution:

 

x-3, x^3+3x and x^3-9x factor into

x-3, x(x^2+3) and x(x^2-9) then into

(x-3) , x(x^2+3) , x(x-3)(x+3).

 

The factors x-3, x, x^2 + 3 and x + 3 'cover' all the factors of the three polynomials, and all are needed to do so. The LCM is therefore:

 

LCM = x(x-3)(x+3)(x^2+3)

Self-critique (if necessary: ok

 

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Self-critique Rating: ok

 

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Question:

 

*   R.7.64 (was R.7.60). Show how you found and simplified the difference 3x / (x-1) - (x - 4) / (x^2 - 2x + 1).

 

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Your solution:

still need like denominators, so try to find the LCD by factoring (x^2 - 2x +1) and get

(x-1)(x-1)=(x-1)^2

from there you can see that you just need to multiply 3x /(x-1) by (x-1)/(x-1) and get

[3x(x-1)]/(x-1)(x-1) and simplify that to (3x^2-3x)/(x-1)^2 now you have

  (3x^2-3x)/(x-1)^2 - (x-4)/(x-1)^2 = (3x^2-3x-x-4)(x-1)^2 = (3x^2-4x-4)/(x-1)^2

confidence rating #$&*: 3

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Given Solution:

* *  ** Starting with

 

3x / (x-1) - (x-4) / (x^2 - 2x +1)

 

we factor the denominator of the second term to obtain (x - 1)^2. Since the first denominator (x - 1) is already a factor of the second, our common denominator is (x - 1)^2.

 

To express the given expression in terms of the common denominator we then multiply the first expression by (x-1) / (x-1) to get

 

3x(x-1)/(x-1)^2 - (x-4)/(x-1)^2,

 

which gives us

 

(3x^2-3x-x+4) / (x-1)^2 = (3x^2 - 4x - 4) / (x-1)^2.

STUDENT QUESTION:

 

I don’t see where the 3x(x-1) comes in. When I tried working it on paper, I started with

3x / (x -1) - (x-4) / (x^2 - 2x + 1) and reduced to

3x / (x-1) - (x-4) / (x-1)^2

But then I tried to solve it by

(3x) - (x-4) / x-1 which isn’t right

INSTRUCTOR RESPONSE:

 

3x / (x-1) - (x-4) / (x-1)^2 consists of two fractions with different denominators. You can't do the subtraction until you have a common denominator.

The denominator of the first is (x - 1); the denominator of the second is (x - 1)^2. If you multiply the first denominator by (x - 1) you get the second denominator.

So to express the first fraction with the same denominator as the second you multiply its numerator and denominator both by ( x - 1 ). You get

(3x / (x - 1) ) * (x - 1) / (x - 1) = 3x ( x - 1) / (x - 1)^2.

So the subtraction becomes

3x ( x - 1) / ( x - 1) ^ 2 - (x - 4) / (x - 1)^2.

The denominator of the combined fraction is (x - 1)^2, while the numerator is (3 x * (x - 1) - (x - 4) ); this simplifies to 3 x^2 - 3 x - x + 4, whic gives us

(3x^2-3x-x-4) / (x-1)^2 = (3x^2 - 4x - 4) / (x-1)^2.

 

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Self-critique (if necessary):ok

  

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Self-critique Rating:ok

 

QUESTION FROM STUDENT: On the practice test I'm having problems with problem #5 I don't know where to start or how to set it up. I'm probably missing something simple and will probably feel stupid by seeing the solution. Could you help with this problem.

 

A retailer is offering 35% off the purchase price of any pair of shoes during its annual charity sale. The sale price of the shoes pictured in the advertisement is $44.85. Find the original price of the shoes by solving the equation p-.35p = 44.85 for p.

 

INSTRUCTOR RESPONSE: It's very easy to grab onto the wrong idea on a problem and then have trouble shaking it, or to just fail to look at it the right way. Nothing stupid about it, just human nature.

 

See if the following makes sense. If not let me know.

 

p - .35 p = 44.85. Since p - .35 p = 1 p - .35 p = (1 - .35) p = .65 p we have

.65 p = 44.85. Multiplying both sides by 1/.65 we get

p = 44.85 / .65 = etc. (you can do the division on your calculator); you'll get something near $67).

"

Self-critique (if necessary):

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Self-critique rating:

 

QUESTION FROM STUDENT: On the practice test I'm having problems with problem #5 I don't know where to start or how to set it up. I'm probably missing something simple and will probably feel stupid by seeing the solution. Could you help with this problem.

 

A retailer is offering 35% off the purchase price of any pair of shoes during its annual charity sale. The sale price of the shoes pictured in the advertisement is $44.85. Find the original price of the shoes by solving the equation p-.35p = 44.85 for p.

 

INSTRUCTOR RESPONSE: It's very easy to grab onto the wrong idea on a problem and then have trouble shaking it, or to just fail to look at it the right way. Nothing stupid about it, just human nature.

 

See if the following makes sense. If not let me know.

 

p - .35 p = 44.85. Since p - .35 p = 1 p - .35 p = (1 - .35) p = .65 p we have

.65 p = 44.85. Multiplying both sides by 1/.65 we get

p = 44.85 / .65 = etc. (you can do the division on your calculator); you'll get something near $67).

"

Self-critique (if necessary):

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Self-critique rating:

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