Open Query 2

#$&*

course Math 152

01/19/2014, 7:35 p.m.

If your solution to stated problem does not match the given solution, you should self-critique per instructions at

http://vhcc2.vhcc.edu/dsmith/geninfo/labrynth_created_fall_05/levl1_22/levl2_81/file3_259.htm.

Your solution, attempt at solution.

If you are unable to attempt a solution, give a phrase-by-phrase interpretation of the problem along with a statement of what you do or do not understand about it. This response should be given, based on the work you did in completing the assignment, before you look at the given solution.

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Self-critique Rating:

question 10.2.14 (previuosly 11.2.12) find 10! / [ 4! (10-4)! ] without calculator

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Your Solution:

10*9*8*7*6*5*4*3*2*1/{4*3*2*1}{6*5*4*3*2*1}

I know we shouldn't call it cancelling out but we can get rid of the 6,5,4,3,2,1 in the denominator and numerator

which leaves us 10*9*8*7/4*3*2*1=

5040/24=210

confidence rating #$&*:3

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Given Solution:: ** Starting with 10! / [ 4! * (10-4) ! ], we replace (10 - 4) by 6 to get 10! / ( 4! * 6! ).

Writing out the factorials our expression becomes

10 * 9 * 8 * 7 * 6 * 5 * 4 * 3 * 2 * 1 / [ ( 4 * 3 * 2 * 1) * ( 6 * 5 * 4 * 3 * 2 * 1) ] .

The numerator and denominator could be multiplied separatedly then divided out but it's easier and more instructive to divide out like terms.

Dividing ( 6 * 5 * 4 * 3 * 2 * 1) in the numerator by the same expression ( 6 * 5 * 4 * 3 * 2 * 1) in the denominator leaves us

10 * 9 * 8 * 7 / (4 * 3 * 2 * 1).

Every factor of the denominator divides into a number in the numerator without remainder:

Divide 4 in the denominator into 8 in the numerator,

divide 3 in the denominator into 9 in the numerator and

divide 2 in the denominator into 10 in the numerator and you end up with

5 * 3 * 2 * 7 = 210.

NOTE ON WHAT NOT TO DO:

You could figure out that 10! = 3628800, and that 4! * 6! = 24 * 720 = 16480, then finally divide 3628800 by 16480. But that process would lose accuracy and be ridiculously long for an expression like 100 ! / ( 30! * 70!). For this calculation the numbers involved would be hundreds of digits long. Much better to simply divide out like factors until the denominator goes away, as it always will with expressions of this form. (form n ! / (r ! * (n - r)! ). **

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Self-critique (if necessary):ok

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Self-critique Rating:ok

question 10.2.27 (previously 11.2.31) (10th edition #25) 3 switches in a row; fund count prin to find # of possible settings

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Your Solution:

because there are no restrictions there are 2 possible settings for each choice

2*2*2=8

confidence rating #$&*:3

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Given Solution:: **

There are two possible settings for the first switch, two for the second, two for the third.

The setting of one switch is independent of the setting of any other switch so the fundamental counting principle holds.

There are therefore 2 * 2 * 2 = 8 possible setting for the three switches.

COMMON ERROR: There are six possible settings and I used fundamental counting principle : first choice 3 ways, second choice 2 ways and third choice 1 way or 3 times 2 times 1 equals 6 ways.

INSTRUCTOR CRITIQUE: You're choosing states of the switches and there are only two states on each. No single choice has 3 possibilities. Also the setting of each switch is independent of the settings of the others, so the number of possibilities on one choice is independent of the number of possibilities on the other. Each of the 3 choices therefore has 2 possibilities. **

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Self-critique (if necessary):ok

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Self-critique Rating: ok

question 10.2.29 (previously 11.2.31) (10th edition #27) If no two adjacent switches are off why does the fundamental counting principle not apply?

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Your Solution:

There are no restrictions to consider, it is not conditional

confidence rating #$&*:3

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Given Solution:: ** The reason the principle doesn’t apply is that the Fund. Counting Principle requires that the events be independent. Here the state of one switch influences the state of its neighbors (neither neighbor can be the same as that switch). So the choices are not independent.

The Fund. Counting Principle requires that the events be independent. Since this is not the case the principle does not apply. **

STUDENT QUESTION

I thought for sure I had this right, but apparently I am confused. A switch is considered

independent when it is concerned with the placement of the other switches. It is dependent if it is not concerned. These

terms seem backward to me.

INSTRUCTOR RESPONSE

The given condition is that no two adjacent switches can be off.

So for example if the first switch is off, the second switch cannot also be off.

Or if the middle switch is off, neither of the other two can be off.

Thus in some circumstances the state of one switch has an influence on the state of the other switches, meaning that its state is dependent on the state of the other switch, and the Fundamental Counting Principle does not apply.

I believe that in this case, you did simply reverse the meanings of 'dependent' and 'independent'.

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Self-critique (if necessary):ok

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Self-critique Rating:ok

question 10.2.40 (previously 11.2.36) How many odd 3-digit #'s from the set {3, 4, 5}?

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Your Solution:

the first digit and the second digit can be any of the three chioces, it is the third choice that has limitations, it has to be odd so

there are only 2 choices

3*3*2=18

confidence rating #$&*:3

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Given Solution:: ** Using the box method, where in this case we draw three boxes and put one number in each:

The 1st box can be filled with any of the three so the first number of possibilities is 3

The 2nd box can also be filled with any of the three so the second number of possibilities is 3

The last digit must be odd, so there are only 2 choices for the third box.

By the Fundamental Counting Principle we therefore have 3*3*2=18 possible combinations.

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Self-critique (if necessary):ok

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Self-critique Rating:ok

question 10.2.54 (previously 11.2.56) (10th edition 50) 10 guitars, 4 cases, 6 amps, 3 processors; # possible setups

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Your Solution:

10*4*6*3=720

confidence rating #$&*: 3

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Given Solution:: A setup consists of a guitar, a case, an amp and a processor.

There are 10 choices for the guitar, 4 choices for the case, 6 choices for the amp and 3 choices for the processor.

So by the Fundamental Counting Principle there are 10 * 4 * 6 * 3 = 720 possible setups. **

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Self-critique (if necessary):ok

You may add comments on any surprises or insights you experienced as a result of this assignment:

This is an area I have never studied before, I feel like I have a better understanding after completing this assignment.

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Self-critique (if necessary):ok

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Self-critique Rating:ok

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