Find the radius of convergence (R) and the interval of convergence (I) of the power series. [infinity] (x − 18)n n16n n = 1 Step 1 of 6 In order to determine the radius of convergence of the power series, apply the ratio test. Recall how to apply the ratio test for an infinite series an . If rho = lim n→[infinity] an+1 an , then the series converges absolutely when rho < Correct: Your answer is correct. seenKey < 1, diverges when rho > Correct: Your answer is correct. seenKey > 1, and is inconclusive when rho = Correct: Your answer is correct. seenKey = 1. State an+1 for the given series. an+1 = $$ Correct: Your answer is correct. webMathematica generated answer key

d) 48

step-by-step explanation:

16,32,48,64,80,96,112,128,144,160,176,192,208,224,240,256,272,288,304,320,336

i think 5 miles per hour

step-by-step explanation:

2. angles qrt and qst both measures 156 degrees.

step-by-step explanation:  

we have been given a diagram of a circle and we are told that measure of arc qvt is 156 degrees.  

we can see from our given diagram that angle qrt and angle qst subtends to arc qvt.

since we know that angles subtended by the same arc at the circumference are always equal.

by angle subtended by same arc theorem, measure of angle qrt and angle qst will be equal to the measure of arc qvt.

therefore, angles qrt and qst both measures 156 degrees and 2nd statement is the correct choice.