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Find the amount which Sam will get on Rs. 4096 if he gave it for 12 1/2% per annum interest being componded half yearly?

 

So can anyone help me with this question!and btw my teacher told us this method of compound interest Amount=Principal (1+Rate%/100)^n

 

(an n is the number of years )

 Oct 14, 2014

Best Answer 

 #8
avatar+129852 
+10

OK, rosala...look at this.....

Notice that if I have 33, I'm just really doing this.......3 * 3  * 3 = 27

So, look at our "formula"

We have ........4096 x (1 + r/n)nt .......note that the interest rate given is 12.5%.......but that's the rate for a yearly compounding.....we must divide this by 2, because we are compounding on a half-year basis !!!!

So...n = 2  (the number of compoundings per year) and r/n =12.5/2 = .0625........with me, so far????

Now...look at the "nt" exponent........n is the number of copoundings per year and t is the number of years. So, if we compounded for 1 + 1/2 years, that would be 3 compoundings   (2 the first year and one more for the next half-year !!). So, "nt" just  equals    (2 times / year)*(1 +1/2 years) = 3 times !!!

OK.......let's put all of this together...we have......

4096*(1 + .0625)3 ......notice that the expression in the parentheses is really just   1.0625........so this gives us........4096*(1 .0625)3

Now, forget the "4095" part and let's just look at the (1 .0625)3  part.....note what this really says is similar to our 33 example earlier....it says that we really have this:

(1.0625) * (1.0625) * (1,0625).......so now, let's add the "4096" part back and we have.....

4096 *(1.0625) * (1.0625) * (1,0625)    ...so......the first compounding is represented by the first multiplication......and 4096 * 1.0625 = 4352...and that's how much we have after one compounding (i.e., after the first half-year)

And the next multiplication  is just  taking this amount and multiplying again by 1.0635 = 4352 * 1.0625 = 4624...and this is the amount after the second compounding (i.e., one year).

So the final multiplication is just our accumulted anount (4624) multiplied again by 1.0625 = 4913 !!!! And that's the amount after 1 +1/2 years  !!!!!

Note that the result is growiing ever larger......hence the term, "compounding"

Also.....note that it would be extremely tedious using my example method if we had to calculate half-year compoundings for 30 years......we would have to multiply the initial amount by 1.0625 .......60 tmes !!!!

Fortunately....the modern calculator relieves us of this burden with the use of the xy key !!!

Does all this "resolve" the "mystery" some ????

 

 Oct 15, 2014
 #1
avatar+129852 
0

4096 if he gave it for 12 1/2% per annum interest being componded half yearly?

OK , rosala....since the interest is being compounded twice a year we need to adust it to 12.5%/2 = 6.25% =  .0625 

So we have

A = 4096(1 +.0625)^(nt)       where n is the number of years  and t is the number of times compounded per year.....in this case, 2

So this simplifies to

A = 4096(1 +.0625)^(n*2) 

You didn't specify the number of years in your question....if you can give me that, I'll do an edit and compute the amount for you !!!

 

 Oct 14, 2014
 #2
avatar+11912 
0

but CPhill , the question was given like this only and nothing more!my teacher did it using 6 months as i remember , maybe that n represents something else too or maybe u can decrease the rate to half according to half year and give no years!do u have any particular way of own to solve this?

 Oct 14, 2014
 #3
avatar+129852 
+5

OK, rosala....we can do it for 6 months.....then n will just equal (1/2)  (half  a year) in the equation

So we have

A = 4096(1 +.0625)^((1/2)*2) =

A = 4096(1 +.0625)^(1) =  Rs 4352  

This make sense....we just compounded the amount 1 time (for just 1/2 of a year) !!!

Does that help??

 

 

 Oct 14, 2014
 #4
avatar+11912 
+5

CPhill but when i checked at the back of the book , the final answer isnt this , it is coming 4,913 .

i really cant understand it!i shall read your answer when i return!now im off to school!so bye!

 

 Oct 14, 2014
 #5
avatar+129852 
+5

OK, rosala...now that I know what the "book answer"  is .......the compounding was for 1.5 years!!

Here's the proof

A = 4096(1 + .0625)^(1.5*2) =

A = 4096(1 + .0625)^(3) = Rs 4913

So....there you go.......

 

 Oct 14, 2014
 #6
avatar+11912 
0

CPhill!i cant understand your answer!is there any other way?

 

 Oct 15, 2014
 #7
avatar+23252 
+10

rosala:  (I don't want to barge in but CPhill doesn't seem to be on line right now.)

I beleive that your instructor just gave you a partial formula, perhaps to ease you into this type of problem.  The complete formula is:                   A = P(1 + r/n)^(n·t)

where n represents the number of times that the money is compounded per year and t is the number of years.

Also, to get the answer that your book has requires compounding for 1 1/2 years.

If you solve this:  A  =  4096(1 + .125/2)^(2·1.5)  you will get 4913.

If you weren't given the 1 1/2 year part, then you can't get the answer.

 Oct 15, 2014
 #8
avatar+129852 
+10
Best Answer

OK, rosala...look at this.....

Notice that if I have 33, I'm just really doing this.......3 * 3  * 3 = 27

So, look at our "formula"

We have ........4096 x (1 + r/n)nt .......note that the interest rate given is 12.5%.......but that's the rate for a yearly compounding.....we must divide this by 2, because we are compounding on a half-year basis !!!!

So...n = 2  (the number of compoundings per year) and r/n =12.5/2 = .0625........with me, so far????

Now...look at the "nt" exponent........n is the number of copoundings per year and t is the number of years. So, if we compounded for 1 + 1/2 years, that would be 3 compoundings   (2 the first year and one more for the next half-year !!). So, "nt" just  equals    (2 times / year)*(1 +1/2 years) = 3 times !!!

OK.......let's put all of this together...we have......

4096*(1 + .0625)3 ......notice that the expression in the parentheses is really just   1.0625........so this gives us........4096*(1 .0625)3

Now, forget the "4095" part and let's just look at the (1 .0625)3  part.....note what this really says is similar to our 33 example earlier....it says that we really have this:

(1.0625) * (1.0625) * (1,0625).......so now, let's add the "4096" part back and we have.....

4096 *(1.0625) * (1.0625) * (1,0625)    ...so......the first compounding is represented by the first multiplication......and 4096 * 1.0625 = 4352...and that's how much we have after one compounding (i.e., after the first half-year)

And the next multiplication  is just  taking this amount and multiplying again by 1.0635 = 4352 * 1.0625 = 4624...and this is the amount after the second compounding (i.e., one year).

So the final multiplication is just our accumulted anount (4624) multiplied again by 1.0625 = 4913 !!!! And that's the amount after 1 +1/2 years  !!!!!

Note that the result is growiing ever larger......hence the term, "compounding"

Also.....note that it would be extremely tedious using my example method if we had to calculate half-year compoundings for 30 years......we would have to multiply the initial amount by 1.0625 .......60 tmes !!!!

Fortunately....the modern calculator relieves us of this burden with the use of the xy key !!!

Does all this "resolve" the "mystery" some ????

 

CPhill Oct 15, 2014
 #9
avatar+11912 
0

Wow , that was amazing CPhill!thanks for your answers CPhill  and geno , i must give u both some points!

 

 Oct 22, 2014

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