How can S3 be equal to the square of the sum of 1 to n?

In summary, the conversation discusses a problem in a textbook that requires proving a formula for the sum of cubes. The solution involves using the formulas S1 = 1/2(n+1), S2 = 1/6n(n+1)(2n+1), and S3 = (1^3 + 2^3 + ... + n^3). The conversation also mentions using LaTeX and proof through induction to solve the problem. The conversation then shifts to finding a formula for the sum of squares of odd numbers and the formula is given as 1^2 + 3^2 +... (2n+1)^2 = 1/6n(n+1)(2n+1). A mistake is
  • #1
courtrigrad
1,236
2
Hello all

I encountered the following problem in my textbook

Prove (1^3 + 2^3 + ... + n^3 ) = ( 1 + 2 +... + n) ^2.

Here is my solution, however I become stuck on the final part of the problem.

Let S1 = 1/2(n+1)

Let S2 = 1/6n(n+1)(2n+1)

S3 = (1^3 + 2^3 + ... + n^3)

(1^3 + 2^3 + ... + n^3 ) = (v+1)^4 - v^4 = (v^4 + 4v^3 + 6v^2 + 4v + 1) - v^4

= 4v^3 + 6v^2 + 4v + 1.

Substituting v = 0 , 1 , 2, ... , n into the equation and adding we get

4(0)^3 + 6(0)^2 + 4(0) + 1​
4(1)^3 + 6(1)^2 + 4(1) + 1​
4(2)^3 + 6(2)^2 + 4(2) +1​
4(n)^3 + 6(n)^2 + 4(n) + 1​


= 4S3 + 6S2 + 4S1 + n + 1

(n+1) ^4 = 4S3 + 6S2 + 4S1 + n + 1

Since we are solving for S3, we collect terms and get

4S3 = (n+1) ^4 - 6S2 - 4S1 - n - 1

= (n+1) ([n+1]^3 - 1- n(2n+1) - 2n)

= (n+1) (n^3 + 3n^2 +3n + 1) - (1 + n(2n+1) +2n)

= (n+1) (n^3 + 3n^2 +3n +1 ) - (1 + 2n^2 +n +2n)

= (n+1) (n^3 + n^2 )

S3 = ¼ (n+1)(n^3 + n^2)

Here is where I become stuck.

How does S3 = ( 1 + 2 +... + n) ^2?

Any help would be greatly appreciated.

Thanks

Also do you know where I can get LaTex?
 
Last edited:
Physics news on Phys.org
  • #2
[tex]S3=\frac{n^{2}(n+1)^{2}}{2^{2}}=(\frac{n(n+1)}{2})^{2}=(\sum_{i=1}^{n}i)^{2}[/tex]

Hope that helps..:wink:
 
  • #3
Have you tried proof through induction? Thats the first thing that always comes to my mind when I see these types of problems.
 
  • #4
Thanks a lot arildno. That really helped me!
 
  • #5
gravenewworld said:
Have you tried proof through induction? Thats the first thing that always comes to my mind when I see these types of problems.

This exact same problem occurred in one of my final exams. The question required a poof by induction.

-Ray.
 
  • #6
courtrigrad said:
Also do you know where I can get LaTex?

Are you asking how to use LaTeX in these forums? One fast way to obtain the reference PDF is by clicking directly on arildno's formatted text. This will open a window that will contain a link.

-Ray.
 
  • #7
how would i use the formula for 1^2 + 2^2 +... +n^2 = 1/6n(n+1)(2n+1) to find a formula for

1^2 + 3^2 +... (2n+1)^2. Would i use the same method i used in my other problem?

Any help would be appreciated.

Thanks!
 
  • #8
1^2 + 3^2 +... (2n+1)^2 (sum of squares of odd numbers) is 1^2 + 2^2 +... +n^2- 2^2+ 4^2+ 6^2+ ... (sum of all squares minus sum of square of even numbers) and, of course, 2^2+ 4^2+ 6^2+... is 4(1^2+ 2^2+ 3^2+...).

Be careful about the limits! In order to find 1+ 3^2+ 5^2+ 7^2 (i.e. n= 3 since 7= 2(3)+1 you would find 1^2+ 2^2+ 3^2+ 4^2+ 6^2+ 7^2+ 8^2 - (2^2+ 4^2+ 6^2+ 8^2)
= 1^2+ 2^2+ 3^2+ 6^2+ 7^2+ 8^2- 4(1^2+ 2^2+ 3^2+ 4^2). You would then use the formula for sums of square with n= 8 and n= 4. In general, if we let S(n) mean "the sum of squares up to n^2" (the original formula), the sum of odds up to 2n+1 would be S(2n+2)- 4S(n+1).
 
  • #9
Thanks a lot. That really helped!
 
  • #10
HallsofIvy, is that just a typo or did you make a mistake in counting 5^2 and 4^2?
 
  • #11
Yeah, I dropped 5^2 in one sum and both 5^2 and 4^2 in another. Thanks for catching that.
 

FAQ: How can S3 be equal to the square of the sum of 1 to n?

What is "Proof of a Sequence"?

Proof of a Sequence is a mathematical concept used to verify the correctness of a sequence of numbers or objects. It involves using logical reasoning and mathematical techniques to show that the sequence follows a specific pattern or rule.

How is "Proof of a Sequence" different from "Proof by Induction"?

Proof of a Sequence specifically deals with verifying the correctness of a sequence, while Proof by Induction is a broader mathematical technique used to prove statements about all elements in a set or sequence.

What are some common methods used in "Proof of a Sequence"?

Some common methods used in Proof of a Sequence include direct proof, proof by contradiction, and proof by exhaustion. These methods involve using logical reasoning, algebraic manipulation, and mathematical properties to show that the sequence follows a specific rule or pattern.

Can "Proof of a Sequence" be used for infinite sequences?

Yes, Proof of a Sequence can be used for both finite and infinite sequences. However, proof techniques may vary depending on the type of sequence and the specific rule or pattern being verified.

Why is "Proof of a Sequence" important in scientific research?

Proof of a Sequence is important in scientific research because it allows scientists to validate and verify the correctness of patterns or rules observed in data or experiments. It also helps to ensure the accuracy and validity of scientific findings and conclusions.

Similar threads

I How does the ratio test fail and the root test succeed here?
Replies
6
Views
2K
MHB Is the Convergence of These Sequences Correctly Determined?
Replies
3
Views
1K
MHB The minimum and maximum of a sequence
Replies
5
Views
1K
MHB How do you find the sum of an infinite series?
Replies
7
Views
2K
MHB Find Limit of Sequence $(a_{n})$: $a_{2n+1}$
Replies
3
Views
2K
I How is the Limit of This Sequence Determined?
Replies
21
Views
2K
MHB How to calculate the lower and upper riemann sum
Replies
2
Views
2K
MHB Evaluate the surface integral $\iint\limits_{\sum}f\cdot d\sigma$
Replies
1
Views
2K
MHB No problem, happy to help! (Glad to hear it)
Replies
2
Views
1K
MHB Can the Series Sum Be Expressed as an Integral as N Approaches Infinity?
Replies
3
Views
1K

Hot Threads

Recent Insights

Back
Top