136.275, Assignment No. 2

                                                     October 17, 2003

The assignment is due Friday, October 24 , 2003 in class. Late assignments receive a mark zero.

 

 

1.a) Show that if the series  and  converges, then

       must also converge.    [3]

   b) If converges, must and converge? Justify your statement. [3]

   c) Give an example where and  both diverge, but converges. [2]

 

2.  Let   with p a real number.

      a) For p< -1 use the Integral Test to determine if the series  converges .

      ( Show that you can use the Integral test for those p.) [5]

      b) For p -1 use the limit comparison test to determine the convergence of . [3]

 

 

3.     Determine if the following series converge or not. State which test you are using:

a)  ,                    [4]

b)  ,                   [3]

c)                     [4]

 

 

4.     Find the radius of convergence and the interval of convergence for the series

          .      [6]

 

5.     a) Find the Taylor series expansion of f(x)= sinx  about x₀= and find the  radius

         of convergence of the series. [4]

      b) Show that f(x) = sinx equals to theTaylor series from a) for all x in |R, by using the

          Remainder Theorem. [4]

       c) Can we expand lnx about x₀=0? Can lnx be represented by a power series about

           x₀=2 on an interval with radius greater than 2? Explain.  [3]              

 

                                                                                               Total [ 44/42]