Chapter 8: Infinite Sequences and Series
Section 8.4: Power Series
Determine the radius of convergence and the interval of convergence for the power series ∑n=0∞x2 n2 n!.
Even though (7) in Table 8.4.1 claims that absolute convergence at one end of the interval of convergence implies absolute convergence at the other, if the convergence at an endpoint is absolute, verify that it also absolute at the other.
Since the given power series contains the powers x2 n, the radius of convergence R is given by
R2=limn→∞an/an+1 = limn→∞1/2 n!1/2n+1!=limn→∞22⁢n+1n+1=∞
Hence, the interval of convergence is −R,R=−∞,∞.
Define the general coefficient an as a function of n
Context Panel: Assign Function
an=12 n!→assign as functiona
Obtain the radius of convergence
Calculus palette: Limit template
Context Panel: Assign Name
Display R, the radius of convergence
Context Panel: Evaluate and Display Inline
R = ∞
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