# rajkamalmath

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bio website none location India age 23 member for 1 year, 2 months seen 2 days ago profile views 84

Preparing for some competitive exams.

# 81 Actions

 Mar5 awarded Critic Mar5 comment Definite Integrals involving indeterminate quantities like log 0 @5xum here it is $\frac{\infty}{\infty}$ form Mar5 comment Definite Integrals involving indeterminate quantities like log 0 @user133241 hint: Use L-Hospital rule. Mar5 awarded Autobiographer Jan16 accepted Evaluate the series Jan15 comment Evaluate the limit of the integral of the sequence of function @labbhattacharjee : so S=$\frac{1}{2}$, for that reason I have told limit is $\frac1{2}$. Thanks! Jan15 comment Evaluate the series @DavidMitra Please give one more hint. Jan15 asked Evaluate the series Jan15 comment Evaluate the limit of the integral of the sequence of function @lab bhattacharjee :Is the limit equal to 1/2 Jan15 comment Evaluate the limit of the integral of the sequence of function @PraphullaKoushik Yes i think limit is 1/2. sorry for previous one Jan15 accepted Evaluate the limit of the integral of the sequence of function Jan15 comment Evaluate the limit of the integral of the sequence of function @PraphullaKoushik I have done $\int_{0}^{1}\frac{x^{n-1}}{1+x}\,dx=\frac{1}{n}-\frac{1}{n+1}+\frac{1}{n+2}-...$. Then I cannot do anything. Jan15 asked Evaluate the limit of the integral of the sequence of function Jan15 accepted Evaluate the limit $a_{n+1}=\lambda a_n^2(1-a_n)$ Jan15 awarded Yearling Jan15 comment Evaluate the limit $a_{n+1}=\lambda a_n^2(1-a_n)$ Thanks for your help. Jan15 asked Evaluate the limit $a_{n+1}=\lambda a_n^2(1-a_n)$ Jan15 accepted Evaluate the limit of the sequence. Jan15 accepted Determine the value of the function Jan15 comment Determine the value of the function Thanks for your help.