Recall the Root test determines the limit as:
`lim_(n-gtoo) |(a_n)^(1/n)|= L`
Then, we follow the conditions:
a) `Llt1` then the series is absolutely convergent
b)` Lgt1` then the series is divergent.
c)` L=1` or does not exist then the test is inconclusive. The series may be divergent, conditionally convergent, or absolutely convergent.
For the given series `sum_(n=0)^oo (x/4)^n` , we have `a_n = (x/4)^n` .
Applying the Root test, we set-up the limit as:
`lim_(n-gtoo)...
Recall the Root test determines the limit as:
`lim_(n-gtoo) |(a_n)^(1/n)|= L`
Then, we follow the conditions:
a) `Llt1` then the series is absolutely convergent
b)` Lgt1` then the series is divergent.
c)` L=1` or does not exist then the test is inconclusive. The series may be divergent, conditionally convergent, or absolutely convergent.
For the given series `sum_(n=0)^oo (x/4)^n` , we have `a_n = (x/4)^n` .
Applying the Root test, we set-up the limit as:
`lim_(n-gtoo) |((x/4)^n )^(1/n)| =lim_(n-gtoo) |(x/4)^(n*1/n)|`
`=lim_(n-gtoo) |(x/4)^(n/n)|`
` =lim_(n-gtoo) |(x/4)^1|`
`=lim_(n-gtoo) |(x/4)|`
`=|x/4|`
Applying `Llt1` as the condition for absolutely convergent series, we plug-in `L = |x/4|` on `Llt1` . The interval of convergence will be:
`|x/4|lt1`
`-1 ltx/4lt1`
Multiply each part by `4` :
`(-1)*4 ltx/4*4lt1*4`
`-4ltxlt4`
The series may converges when `L =1 ` or `|x/4|=1` . To check on this, we test for convergence at the endpoints: `x=-4` and `x=4` by using geometric series test.
The convergence test for the geometric series `sum_(n=0)^oo a*r^n` follows the conditions:
a) If `|r|lt1` or `-1 ltrlt 1 ` then the geometric series converges to ` a/(1-r)` .
b) If `|r|gt=1` then the geometric series diverges.
When we let `x=-4` on `sum_(n=0)^oo (x/4)^n ` , we get a series:
`sum_(n=0)^oo 1*(-4/4)^n =sum_(n=0)^oo 1*(-1)^n`
It shows that `r=-1` and `|r|= |-1|=1` which satisfies `|r|gt=1` . Thus, the series diverges at the left endpoint.
When we let `x=4` on `sum_(n=0)^oo (x/4)^n` , we get a series:
`sum_(n=0)^oo 1*(4/4)^n =sum_(n=0)^oo 1*(1)^n`
It shows that `r=1` and `|r|= |-1|=1` which satisfies `|r|gt=1` . Thus, the series diverges at the right endpoint.
Conclusion:
The interval of convergence of `sum_(n=0)^oo (x/4)^n ` is `-4ltxlt4`.
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