How can we evaluate the sequence ${}_3C_1+{}_7C_2+{}_{11}C_3+dots+{}_{4n-1}C_n=$? [closed]
I am new in combinatorics. How is the following sequence calculated?
${}_3C_1+{}_7C_2+{}_{11}C_3+dots+{}_{4n-1}C_n=$?
combinatorics discrete-mathematics
asked Nov 26 at 11:09
Möbius
286
closed as off-topic by Saad, Claude Leibovici, Toby Mak, Jyrki Lahtonen, amWhy Nov 26 at 13:31
This question appears to be off-topic. The users who voted to close gave this specific reason:
- "This question is missing context or other details: Please improve the question by providing additional context, which ideally includes your thoughts on the problem and any attempts you have made to solve it. This information helps others identify where you have difficulties and helps them write answers appropriate to your experience level." – Saad, Claude Leibovici, Toby Mak, Jyrki Lahtonen, amWhy
If this question can be reworded to fit the rules in the help center, please edit the question.
add a comment |
I am new in combinatorics. How is the following sequence calculated?
${}_3C_1+{}_7C_2+{}_{11}C_3+dots+{}_{4n-1}C_n=$?
combinatorics discrete-mathematics
asked Nov 26 at 11:09
Möbius
286
closed as off-topic by Saad, Claude Leibovici, Toby Mak, Jyrki Lahtonen, amWhy Nov 26 at 13:31
This question appears to be off-topic. The users who voted to close gave this specific reason:
- "This question is missing context or other details: Please improve the question by providing additional context, which ideally includes your thoughts on the problem and any attempts you have made to solve it. This information helps others identify where you have difficulties and helps them write answers appropriate to your experience level." – Saad, Claude Leibovici, Toby Mak, Jyrki Lahtonen, amWhy
If this question can be reworded to fit the rules in the help center, please edit the question.
5
If you were new to combinatorics, wouldn't this be too hard?
– Toby Mak
Nov 26 at 11:56
add a comment |
I am new in combinatorics. How is the following sequence calculated?
${}_3C_1+{}_7C_2+{}_{11}C_3+dots+{}_{4n-1}C_n=$?
combinatorics discrete-mathematics
asked Nov 26 at 11:09
Möbius
286
I am new in combinatorics. How is the following sequence calculated?
${}_3C_1+{}_7C_2+{}_{11}C_3+dots+{}_{4n-1}C_n=$?
combinatorics discrete-mathematics
combinatorics discrete-mathematics
asked Nov 26 at 11:09
Möbius
286
asked Nov 26 at 11:09
Möbius
286
edited Nov 26 at 15:32
asked Nov 26 at 11:09
Möbius
286
asked Nov 26 at 11:09
Möbius
286
asked Nov 26 at 11:09
Möbius
286
286
closed as off-topic by Saad, Claude Leibovici, Toby Mak, Jyrki Lahtonen, amWhy Nov 26 at 13:31
This question appears to be off-topic. The users who voted to close gave this specific reason:
- "This question is missing context or other details: Please improve the question by providing additional context, which ideally includes your thoughts on the problem and any attempts you have made to solve it. This information helps others identify where you have difficulties and helps them write answers appropriate to your experience level." – Saad, Claude Leibovici, Toby Mak, Jyrki Lahtonen, amWhy
If this question can be reworded to fit the rules in the help center, please edit the question.
closed as off-topic by Saad, Claude Leibovici, Toby Mak, Jyrki Lahtonen, amWhy Nov 26 at 13:31
This question appears to be off-topic. The users who voted to close gave this specific reason:
- "This question is missing context or other details: Please improve the question by providing additional context, which ideally includes your thoughts on the problem and any attempts you have made to solve it. This information helps others identify where you have difficulties and helps them write answers appropriate to your experience level." – Saad, Claude Leibovici, Toby Mak, Jyrki Lahtonen, amWhy
If this question can be reworded to fit the rules in the help center, please edit the question.
5
If you were new to combinatorics, wouldn't this be too hard?
– Toby Mak
Nov 26 at 11:56
add a comment |
5
If you were new to combinatorics, wouldn't this be too hard?
– Toby Mak
Nov 26 at 11:56
5
5
If you were new to combinatorics, wouldn't this be too hard?
– Toby Mak
Nov 26 at 11:56
If you were new to combinatorics, wouldn't this be too hard?
– Toby Mak
Nov 26 at 11:56
add a comment |
3 Answers
3
active
oldest
votes
Hint:
The $r$th term$T_{r+1}$ of $(x^a+x^b)^{4m-1}$
is $displaystylebinom{4m-1}r x^{a(4m-1-r)+br}$
$r=mimplies T_{m+1}=displaystylebinom{4m-1}m x^{a(4m-1-m)+bm}=binom{4m-1}m x^{m(3a+b)-a}$
If we set $3a+b=0iff b=-3a$
$T_{m+1}$ of $(x^a+x^{-3a})^{4m-1}$ will be $displaystylebinom{4m-1}m x^{-a}$
Set $a=-1,T_{r+1}$ in $(x^{-1}+x^3)^{4m-1}$ will be $displaystylebinom{4m-1}mx$
So, we need to find coefficient of $x$ in $$sum_{m=1}^n(x^{-1}+x^3)^{4m-1}$$ which is a finite Geometric Series.
answered Nov 26 at 11:42
lab bhattacharjee
222k15156274
add a comment |
Here are some java code to compute it.
public static BigInteger ComputeSerie(int x){
BigInteger sum=BigInteger.ZERO;
for (int i=1;i<=x;i++)
sum=sum.add(binomial(4*i-1,i));
return sum;
}
public static BigInteger binomial(final int N, final int K) {
BigInteger ret = BigInteger.ONE;
for (int k = 0; k < K; k++) {
ret = ret.multiply(BigInteger.valueOf(N-k))
.divide(BigInteger.valueOf(k+1));
}
return ret;
}
System.out.println(ComputeSerie(20)) gives 2973189430714766571.
answered Nov 26 at 12:24
mathnoob
1,759422
add a comment |
Consider expansion of $$(1+x^4)^{n}=binom{n}0 x^{0}+binom{n}1 x^{4}+binom{n}2 x^{8}+dots+binom{n}n x^{4n}$$ $$(1+x^4)^{n}-binom{n}0x^{0}=binom{n}1 x^{4}+binom{n}2 x^{8}+dots+binom{n}n x^{4n} $$Dividing by $x$ on both sides $$frac{(1+x^4)^{n}-1}{x}=binom{n}1 x^{3}+binom{n}2 x^{7}+dots+binom{n}n x^{4n-1}$$ Differentiating w.r.t x on both sides $$frac{(x)(n)(1+x^4)^{n-1}(4x^3)-(1+x^4)^{n}(1)}{x^2}+frac{1}{x^2}=3binom{n}1 x^{2}+7binom{n}2 x^{6}+dots+(4n-1)binom{n}n x^{4n-2}$$ Substituting x=1 in the above equation $$3binom{n}1+7binom{n}2+dots+(4n-1)binom{n}n=(2n-1)2^n+1$$
answered Nov 26 at 12:38
Sai Satwik Kuppili
538
I think the question is not 3C1+7C2+...+(4n-1)Cn. It should be 3(nC1)+7(nC2)+..(4n-1)(nCn). Since in some text books nCr is represented as Cr
– Sai Satwik Kuppili
Nov 26 at 12:43
This is not the answer. The question is 3C1+7C2+...+(4n-1)Cn
– Möbius
Nov 26 at 15:29
add a comment |
3 Answers
3
active
oldest
votes
3 Answers
3
active
oldest
votes
active
oldest
votes
active
oldest
votes
Hint:
The $r$th term$T_{r+1}$ of $(x^a+x^b)^{4m-1}$
is $displaystylebinom{4m-1}r x^{a(4m-1-r)+br}$
$r=mimplies T_{m+1}=displaystylebinom{4m-1}m x^{a(4m-1-m)+bm}=binom{4m-1}m x^{m(3a+b)-a}$
If we set $3a+b=0iff b=-3a$
$T_{m+1}$ of $(x^a+x^{-3a})^{4m-1}$ will be $displaystylebinom{4m-1}m x^{-a}$
Set $a=-1,T_{r+1}$ in $(x^{-1}+x^3)^{4m-1}$ will be $displaystylebinom{4m-1}mx$
So, we need to find coefficient of $x$ in $$sum_{m=1}^n(x^{-1}+x^3)^{4m-1}$$ which is a finite Geometric Series.
answered Nov 26 at 11:42
lab bhattacharjee
222k15156274
add a comment |
Hint:
The $r$th term$T_{r+1}$ of $(x^a+x^b)^{4m-1}$
is $displaystylebinom{4m-1}r x^{a(4m-1-r)+br}$
$r=mimplies T_{m+1}=displaystylebinom{4m-1}m x^{a(4m-1-m)+bm}=binom{4m-1}m x^{m(3a+b)-a}$
If we set $3a+b=0iff b=-3a$
$T_{m+1}$ of $(x^a+x^{-3a})^{4m-1}$ will be $displaystylebinom{4m-1}m x^{-a}$
Set $a=-1,T_{r+1}$ in $(x^{-1}+x^3)^{4m-1}$ will be $displaystylebinom{4m-1}mx$
So, we need to find coefficient of $x$ in $$sum_{m=1}^n(x^{-1}+x^3)^{4m-1}$$ which is a finite Geometric Series.
answered Nov 26 at 11:42
lab bhattacharjee
222k15156274
add a comment |
Hint:
The $r$th term$T_{r+1}$ of $(x^a+x^b)^{4m-1}$
is $displaystylebinom{4m-1}r x^{a(4m-1-r)+br}$
$r=mimplies T_{m+1}=displaystylebinom{4m-1}m x^{a(4m-1-m)+bm}=binom{4m-1}m x^{m(3a+b)-a}$
If we set $3a+b=0iff b=-3a$
$T_{m+1}$ of $(x^a+x^{-3a})^{4m-1}$ will be $displaystylebinom{4m-1}m x^{-a}$
Set $a=-1,T_{r+1}$ in $(x^{-1}+x^3)^{4m-1}$ will be $displaystylebinom{4m-1}mx$
So, we need to find coefficient of $x$ in $$sum_{m=1}^n(x^{-1}+x^3)^{4m-1}$$ which is a finite Geometric Series.
answered Nov 26 at 11:42
lab bhattacharjee
222k15156274
Hint:
The $r$th term$T_{r+1}$ of $(x^a+x^b)^{4m-1}$
is $displaystylebinom{4m-1}r x^{a(4m-1-r)+br}$
$r=mimplies T_{m+1}=displaystylebinom{4m-1}m x^{a(4m-1-m)+bm}=binom{4m-1}m x^{m(3a+b)-a}$
If we set $3a+b=0iff b=-3a$
$T_{m+1}$ of $(x^a+x^{-3a})^{4m-1}$ will be $displaystylebinom{4m-1}m x^{-a}$
Set $a=-1,T_{r+1}$ in $(x^{-1}+x^3)^{4m-1}$ will be $displaystylebinom{4m-1}mx$
So, we need to find coefficient of $x$ in $$sum_{m=1}^n(x^{-1}+x^3)^{4m-1}$$ which is a finite Geometric Series.
answered Nov 26 at 11:42
lab bhattacharjee
222k15156274
answered Nov 26 at 11:42
lab bhattacharjee
222k15156274
answered Nov 26 at 11:42
lab bhattacharjee
222k15156274
answered Nov 26 at 11:42
lab bhattacharjee
222k15156274
222k15156274
add a comment |
add a comment |
Here are some java code to compute it.
public static BigInteger ComputeSerie(int x){
BigInteger sum=BigInteger.ZERO;
for (int i=1;i<=x;i++)
sum=sum.add(binomial(4*i-1,i));
return sum;
}
public static BigInteger binomial(final int N, final int K) {
BigInteger ret = BigInteger.ONE;
for (int k = 0; k < K; k++) {
ret = ret.multiply(BigInteger.valueOf(N-k))
.divide(BigInteger.valueOf(k+1));
}
return ret;
}
System.out.println(ComputeSerie(20)) gives 2973189430714766571.
answered Nov 26 at 12:24
mathnoob
1,759422
add a comment |
Here are some java code to compute it.
public static BigInteger ComputeSerie(int x){
BigInteger sum=BigInteger.ZERO;
for (int i=1;i<=x;i++)
sum=sum.add(binomial(4*i-1,i));
return sum;
}
public static BigInteger binomial(final int N, final int K) {
BigInteger ret = BigInteger.ONE;
for (int k = 0; k < K; k++) {
ret = ret.multiply(BigInteger.valueOf(N-k))
.divide(BigInteger.valueOf(k+1));
}
return ret;
}
System.out.println(ComputeSerie(20)) gives 2973189430714766571.
answered Nov 26 at 12:24
mathnoob
1,759422
add a comment |
Here are some java code to compute it.
public static BigInteger ComputeSerie(int x){
BigInteger sum=BigInteger.ZERO;
for (int i=1;i<=x;i++)
sum=sum.add(binomial(4*i-1,i));
return sum;
}
public static BigInteger binomial(final int N, final int K) {
BigInteger ret = BigInteger.ONE;
for (int k = 0; k < K; k++) {
ret = ret.multiply(BigInteger.valueOf(N-k))
.divide(BigInteger.valueOf(k+1));
}
return ret;
}
System.out.println(ComputeSerie(20)) gives 2973189430714766571.
answered Nov 26 at 12:24
mathnoob
1,759422
Here are some java code to compute it.
public static BigInteger ComputeSerie(int x){
BigInteger sum=BigInteger.ZERO;
for (int i=1;i<=x;i++)
sum=sum.add(binomial(4*i-1,i));
return sum;
}
public static BigInteger binomial(final int N, final int K) {
BigInteger ret = BigInteger.ONE;
for (int k = 0; k < K; k++) {
ret = ret.multiply(BigInteger.valueOf(N-k))
.divide(BigInteger.valueOf(k+1));
}
return ret;
}
System.out.println(ComputeSerie(20)) gives 2973189430714766571.
answered Nov 26 at 12:24
mathnoob
1,759422
answered Nov 26 at 12:24
mathnoob
1,759422
answered Nov 26 at 12:24
mathnoob
1,759422
answered Nov 26 at 12:24
mathnoob
1,759422
1,759422
add a comment |
add a comment |
Consider expansion of $$(1+x^4)^{n}=binom{n}0 x^{0}+binom{n}1 x^{4}+binom{n}2 x^{8}+dots+binom{n}n x^{4n}$$ $$(1+x^4)^{n}-binom{n}0x^{0}=binom{n}1 x^{4}+binom{n}2 x^{8}+dots+binom{n}n x^{4n} $$Dividing by $x$ on both sides $$frac{(1+x^4)^{n}-1}{x}=binom{n}1 x^{3}+binom{n}2 x^{7}+dots+binom{n}n x^{4n-1}$$ Differentiating w.r.t x on both sides $$frac{(x)(n)(1+x^4)^{n-1}(4x^3)-(1+x^4)^{n}(1)}{x^2}+frac{1}{x^2}=3binom{n}1 x^{2}+7binom{n}2 x^{6}+dots+(4n-1)binom{n}n x^{4n-2}$$ Substituting x=1 in the above equation $$3binom{n}1+7binom{n}2+dots+(4n-1)binom{n}n=(2n-1)2^n+1$$
answered Nov 26 at 12:38
Sai Satwik Kuppili
538
I think the question is not 3C1+7C2+...+(4n-1)Cn. It should be 3(nC1)+7(nC2)+..(4n-1)(nCn). Since in some text books nCr is represented as Cr
– Sai Satwik Kuppili
Nov 26 at 12:43
This is not the answer. The question is 3C1+7C2+...+(4n-1)Cn
– Möbius
Nov 26 at 15:29
add a comment |
Consider expansion of $$(1+x^4)^{n}=binom{n}0 x^{0}+binom{n}1 x^{4}+binom{n}2 x^{8}+dots+binom{n}n x^{4n}$$ $$(1+x^4)^{n}-binom{n}0x^{0}=binom{n}1 x^{4}+binom{n}2 x^{8}+dots+binom{n}n x^{4n} $$Dividing by $x$ on both sides $$frac{(1+x^4)^{n}-1}{x}=binom{n}1 x^{3}+binom{n}2 x^{7}+dots+binom{n}n x^{4n-1}$$ Differentiating w.r.t x on both sides $$frac{(x)(n)(1+x^4)^{n-1}(4x^3)-(1+x^4)^{n}(1)}{x^2}+frac{1}{x^2}=3binom{n}1 x^{2}+7binom{n}2 x^{6}+dots+(4n-1)binom{n}n x^{4n-2}$$ Substituting x=1 in the above equation $$3binom{n}1+7binom{n}2+dots+(4n-1)binom{n}n=(2n-1)2^n+1$$
answered Nov 26 at 12:38
Sai Satwik Kuppili
538
I think the question is not 3C1+7C2+...+(4n-1)Cn. It should be 3(nC1)+7(nC2)+..(4n-1)(nCn). Since in some text books nCr is represented as Cr
– Sai Satwik Kuppili
Nov 26 at 12:43
This is not the answer. The question is 3C1+7C2+...+(4n-1)Cn
– Möbius
Nov 26 at 15:29
add a comment |
Consider expansion of $$(1+x^4)^{n}=binom{n}0 x^{0}+binom{n}1 x^{4}+binom{n}2 x^{8}+dots+binom{n}n x^{4n}$$ $$(1+x^4)^{n}-binom{n}0x^{0}=binom{n}1 x^{4}+binom{n}2 x^{8}+dots+binom{n}n x^{4n} $$Dividing by $x$ on both sides $$frac{(1+x^4)^{n}-1}{x}=binom{n}1 x^{3}+binom{n}2 x^{7}+dots+binom{n}n x^{4n-1}$$ Differentiating w.r.t x on both sides $$frac{(x)(n)(1+x^4)^{n-1}(4x^3)-(1+x^4)^{n}(1)}{x^2}+frac{1}{x^2}=3binom{n}1 x^{2}+7binom{n}2 x^{6}+dots+(4n-1)binom{n}n x^{4n-2}$$ Substituting x=1 in the above equation $$3binom{n}1+7binom{n}2+dots+(4n-1)binom{n}n=(2n-1)2^n+1$$
answered Nov 26 at 12:38
Sai Satwik Kuppili
538
Consider expansion of $$(1+x^4)^{n}=binom{n}0 x^{0}+binom{n}1 x^{4}+binom{n}2 x^{8}+dots+binom{n}n x^{4n}$$ $$(1+x^4)^{n}-binom{n}0x^{0}=binom{n}1 x^{4}+binom{n}2 x^{8}+dots+binom{n}n x^{4n} $$Dividing by $x$ on both sides $$frac{(1+x^4)^{n}-1}{x}=binom{n}1 x^{3}+binom{n}2 x^{7}+dots+binom{n}n x^{4n-1}$$ Differentiating w.r.t x on both sides $$frac{(x)(n)(1+x^4)^{n-1}(4x^3)-(1+x^4)^{n}(1)}{x^2}+frac{1}{x^2}=3binom{n}1 x^{2}+7binom{n}2 x^{6}+dots+(4n-1)binom{n}n x^{4n-2}$$ Substituting x=1 in the above equation $$3binom{n}1+7binom{n}2+dots+(4n-1)binom{n}n=(2n-1)2^n+1$$
answered Nov 26 at 12:38
Sai Satwik Kuppili
538
answered Nov 26 at 12:38
Sai Satwik Kuppili
538
answered Nov 26 at 12:38
Sai Satwik Kuppili
538
answered Nov 26 at 12:38
Sai Satwik Kuppili
538
538
I think the question is not 3C1+7C2+...+(4n-1)Cn. It should be 3(nC1)+7(nC2)+..(4n-1)(nCn). Since in some text books nCr is represented as Cr
– Sai Satwik Kuppili
Nov 26 at 12:43
This is not the answer. The question is 3C1+7C2+...+(4n-1)Cn
– Möbius
Nov 26 at 15:29
add a comment |
I think the question is not 3C1+7C2+...+(4n-1)Cn. It should be 3(nC1)+7(nC2)+..(4n-1)(nCn). Since in some text books nCr is represented as Cr
– Sai Satwik Kuppili
Nov 26 at 12:43
This is not the answer. The question is 3C1+7C2+...+(4n-1)Cn
– Möbius
Nov 26 at 15:29
I think the question is not 3C1+7C2+...+(4n-1)Cn. It should be 3(nC1)+7(nC2)+..(4n-1)(nCn). Since in some text books nCr is represented as Cr
– Sai Satwik Kuppili
Nov 26 at 12:43
I think the question is not 3C1+7C2+...+(4n-1)Cn. It should be 3(nC1)+7(nC2)+..(4n-1)(nCn). Since in some text books nCr is represented as Cr
– Sai Satwik Kuppili
Nov 26 at 12:43
This is not the answer. The question is 3C1+7C2+...+(4n-1)Cn
– Möbius
Nov 26 at 15:29
This is not the answer. The question is 3C1+7C2+...+(4n-1)Cn
– Möbius
Nov 26 at 15:29
add a comment |
5
If you were new to combinatorics, wouldn't this be too hard?
– Toby Mak
Nov 26 at 11:56