(C0)/(1. 3)-(C1)/(2. 3)+(C2)/(3. 3)-(C3)...

`(C_0)/(1. 3)-(C_1)/(2. 3)+(C_2)/(3. 3)-(C_3)/(4. 3)+...... +(-1)^n(C_n)/((n+1)*3)` is

`(3)/(n+1)`

`(n+1)/(3)`

`(1)/(3(n+1))`

None of these

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If C_(0), C_(1), C_(2),..., C_(n) are binomial coefficients in the expansion of (1 + x)^(n), then the value of C_(0) + (C_(1))/(2) + (C_(2))/(3) + (C_(3))/(4) +...+ (C_(n))/(n+1) is

Show that (C_(0))/(1) - (C_(1))/(4) + (C_(2))/(7) - … + (-1)^(n) (C_(n))/(3n +1) = (3^(n) * n!)/(1*4*7…(3n+1)) , where C_(r) stands for ""^(n)C_(r) .

Prove that 1/(n+1)=(.^n C_1)/2-(2(.^n C_2))/3+(3(.^n C_3))/4- . . . +(-1^(n+1))(n*(.^n C_n))/(n+1) .

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Find C_0 + (C_1)/(2) + (C_2)/(2^2) + (C_3)/(2^3)+…..+(C_n)/(2^n)= ?

Find .^(n)C_(1)-(1)/(2).^(n)C_(2)+(1)/(3).^(n)C_(3)- . . . +(-1)^(n-1)(1)/(n).^(n)C_(n)

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If (1+x)^(n)=C_(0)+C_(1)x+…..+C_(n)x^(n) , then (C_(1))/(C_(0))+(2C_(2))/(C_(1))+(3C_(3))/(C_(2))+....+(nC_(n))/(C_(n-1)) is :

If (1 + x)^(n) = C_(0) + C_(1) x + C_(2) x^(2) + C_(3) x^(3) + … + C_(n) x^(n) , prove that C_(0) - (C_(1))/(2) + (C_(2))/(3) -…+ (-1)^(n) (C_(n))/(n+1) = (1)/(n+1) .

ARIHANT MATHS ENGLISH-BIONOMIAL THEOREM-Exercise For Session 4

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Coefficient of x^15 in (1+ x + x^3+ x^4)^n is
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If (1 + x)^(n) = C(0) + C(1) x C(2) x^(2) +…+ C(n) x^(n), then the s...
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(C0)/(1. 3)-(C1)/(2. 3)+(C2)/(3. 3)-(C3)/(4. 3)+...... +(-1)^n(Cn)/((n...
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sum(r=1)^(n) {sum(r1=0)^(r-1) ""^(n)C(r) ""^(r)C(r(1)) 2^(r1)} is equ...
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The value of the expression (sum(r=0)^10 "^10 Cr)(sum(k=0)^10 (-1)^k ...
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