The table below lists leading digits of 317 inter-arrival Internet traffic times for a computer, along with the frequencies of leading digits expected with Benford's law. When using these data to test for goodness-of-fit with the distribution described by Benford's law, identify the null and alternative hypotheses.
Choose the correct answer below.
Extracted text: The table below lists leading digits of 317 inter-arrival Internet traffic times for a computer, along with the frequencies of leading digits expected with Benford's law. When using these data to test for goodness-of-fit with the distribution described by Benford's law, identify the null and alternative hypotheses. Leading Digit Benford's Law Leading Digits of Inter-Arrival Traffic Times 3 30.1% 17.6% 12.5% 9.7% 6 7 7.9% 6.7% 5.8% | 5.1% | 4.6% 76 62 29 33 19 27 28 21 22 Choose the correct answer below. O A. H,: p, = 0.301 and p, = 0.176 and p3 = 0.125 and ... and pg = 0.046 H,: At least one of the proportions is different from the others. O B. Hn: p, = 0.301 and p, = 0.176 and p, = 0.125 and . and p. = 0.046 H,: None of the proportions are equal to the given claimed value. O C. Hn: None of the proportions are equal to the given claimed value. H,: P, = 0.301 and p, = 0.176 and p, = 0.125 and and p. = 0.046
Extracted text: O D. H,: At least one of the proportions is different from the others. H,: P, =0.301 and p, = 0.176 and p, = 0.125 and . and p, = 0.046 O E. H,: At least one of the proportions is not equal to the given claimed value. H,: P, =0.301 and p, = 0.176 and p, = 0.125 and . and p, = 0.046 OF. H,: P, =0.301 and p2 = 0.176 and p3 = 0.125 and . and pg = 0.046 H,: At least one of the proportions is not equal to the given claimed value.