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Need math help, will pay $3 PP if you solve w/ all work

Master Chief

By Master Chief
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Jesus1 Black Poster

Jesus1

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This might be completely wrong but this is how I would of approached the problem

So I used P = Population and "." as being a multiplication and ^ as to the power of.

An exponential function is usually defined as
P = a.b^t
If t = 0 at 1990 then at 1993, t = 3 and at 2005, t = 15

Therefore we can make the two equations

For P(1993) -->     a.b^3 = 255
and P(2005) -->    a.b^15 = 212 

If we solve these simultaneously because we have two variables, then we arrive at the answers
 

a = 267.0491871 and b = 0.9847280448

Using these values you can then put into a graph and create your exponential function by graphing this

P = 267.0491871 x 0.9847280448^t


http://i.imgur.com/Q64LuSq.png

 

Edited by dank vitamins
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Caesar Mithril Poster

Caesar

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So this is a decaying exponential. Therefore it'll take the format of P(t)=Ae^(bt), where t represents years, A represents initial population at 1990, and b is the decaying factor. 

 

Some rules to be familiar with. The inverse of an exponential 'e' is ln, the natural logarithm. Others is dividing by exponents, you take away the power. Just google if you're unsure. 

2gy6o9x.jpg

 

12138eo.jpg

Edited by Caesar
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Jesus1 Black Poster

Jesus1

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So this is a decaying exponential. Therefore it'll take the format of P(t)=Ae^(bt), where t represents years, A represents initial population at 1990, and b is the decaying factor. 

 

Some rules to be familiar with. The inverse of an exponential 'e' is ln, the natural logarithm. Others is dividing by exponents, you take away the power. Just google if you're unsure.

Interesting approach, might be what hes looking for 

I live in Australia so my approach was much different :)

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Caesar Mithril Poster

Caesar

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Interesting approach, might be what hes looking for 

I live in Australia so my approach was much different smile.png

I live in Australia aswell mate :P I remember doing this is high school. Both methods are correct, except it's much easier to work out using euler's number, since you can isolate the decaying factor easier by using LN().

To double check my method, use the final formula provided. Substitute in b = 3, and b = 15, you should get 255, and 212 :)

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Paradox68 Black Poster

Paradox68

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Shouldn't you need to work this out yourself ? may be in a test or somthing?

 

 

 

He won't have to worry about it on any upcoming test. If they make it extra credit they don't expect you to know how to do it, they just give you bonus points if you do. And they can't put things they don't expect you to already know on a test.

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4nr Black Poster

4nr

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He won't have to worry about it on any upcoming test. If they make it extra credit they don't expect you to know how to do it, they just give you bonus points if you do. And they can't put things they don't expect you to already know on a test.

oh okay i don't know how the american system works im guessing its american 

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Master Chief Dragon Poster

Master Chief

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So this is a decaying exponential. Therefore it'll take the format of P(t)=Ae^(bt), where t represents years, A represents initial population at 1990, and b is the decaying factor. 

 

Some rules to be familiar with. The inverse of an exponential 'e' is ln, the natural logarithm. Others is dividing by exponents, you take away the power. Just google if you're unsure. 

2gy6o9x.jpg

 

12138eo.jpg

 

 

This might be completely wrong but this is how I would of approached the problem

So I used P = Population and "." as being a multiplication and ^ as to the power of.

An exponential function is usually defined as

P = a.b^t

If t = 0 at 1990 then at 1993, t = 3 and at 2005, t = 15

Therefore we can make the two equations

For P(1993) -->     a.b^3 = 255

and P(2005) -->    a.b^15 = 212 

If we solve these simultaneously because we have two variables, then we arrive at the answers

 

a = 267.0491871 and b = 0.9847280448

Using these values you can then put into a graph and create your exponential function by graphing this

P = 267.0491871 x 0.9847280448^t

http://i.imgur.com/Q64LuSq.png

tyvm. Are these both right answers? Just worded differently?

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Woody Mithril Poster

Woody

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tyvm. Are these both right answers? Just worded differently?

Use Caesar's solution. His answer is a natural exponential function and looks better.

 

However, I would round off the values to 3 numbers, since there are max 3 digits in the question, if you understand what I mean.

Edited by Woody
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Jesus1 Black Poster

Jesus1

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Use Caesar's solution. His answer is a natural exponential function and looks better.

 

However, I would round off the values to 3 numbers, since there are max 3 digits in the question, if you understand what I mean.

yeah I would use his too haha!

Funny how this is coming from an ex mod and it's not even allowed.

And then it's not even in the right section.

And then he's only paying $3.

Come on, OP.

wait so what against the rules?

asking for help with homework?

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