Excel's BINOM.DIST function can be used to compute _____.
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please find below the solution.. let me know if you need any clarification..
correct answer is option b. Binomial probabilities.
Excel's BINOM.DIST function can be used to compute _____. a. bin width for histograms b. binomial...
Is this correct? _ function can be used to calculate a p-value for a Excel's hypothesis test. O a. RAND b. NORM.S.DIST O C. NORM.S.INV O d. Not enough information is given to answer this question.
ompute the following binomial probabilities using the table of Cumulative Binomial Probabilities. Give your answer to 3 places past the decimal. Compute the following binomial probabilities using the table of Cumulative Binomial Probabilities. Give your answer to 3 places past the decimal a) Binomial cdf value: B(9; 25, 0.4) 0.425 正确答案! 您的证明编号是159-5108 (O LAHIR 以煎的尝试 b.) Binomial cdf value: B(6; 20, 0.2) 0.913 正确答案! 您的证明编号是159-7057。)以前的尝试 c) Binomial pmf value: b(8; 20, 0.4) 0.180 正确答案! 您的证明编号是159-8630 ⓞEAELAR d) Binomial pmf value:...
1) Excel's _____________ can be used to construct a frequency distribution for quantitative data. a) COUNTIF function b) AVERAGE function c) FREQUENCEY function d) none of these answers is correct e) SUM function 2) Excel's ______________ can be used to construct a frequency distribution for qualitative data. a) Pivot Table report b) COUNTIF function C) chart wizard d) SUM function e) none of these answers is correct 3) The relative frequency of a class is computed by a) None of...
compute p(x) using the binomial probability formula. then determine whether the normal distribution can be used to estimate this probability. if so, p(x) using the normal distribution and compare the result with the exact probability. n=78, p= 0.83, and x=60 for n= 78, p= 0.83, and x=60, find P(x) using the binomial probability distribution. P(x) _. (round to four decimal places as needed.) can the normal distribution be used to approximate this probability? A. no, the normal distribution cannot be...
How can we compute the probability for each combination in the sample space? Binomial Sum of individual probabilities Poisson model Hypergeometric
Match p0.3, p=0.5.p=0.6 with the correct graph The following histograms each represent binomial distributions. Each distribution has the same number of trials but different probabilities of success p. P() Ps O A. (a)p03. (b)p=05.(c)p=06 OB. (a)p 06, (b)p=05.(c)p=03 OC. (a)p03. (b) 06, (c)p05 OD.) 0.5, (b)p=06, (c)p0.3 OE (p=0.5, (b)P 0.3.(p=0.6 OF. (a)p06,(b) p=0.3.(c)p0.5 'P(x) 0 02 0.1-
Compute the following binomial probabilities. Set up the formula before calculating in R. c) For Fx(1), when n = 11 and p = .1, write this as a sum of binomial probabilities and then calculate it using the cdf function in R. Please round your answer to the nearest 3 decimal places. Answer: Check
Compute P(X) using the binomial probability formula. Then determine whether the normal distribution can be used to estimate this probability. If so, approximate P(X) using the normal distribution and compare the result with the exact probability. N=53, p=0.7, and X=47 For n=53, p=0.7, and X=7, find P(X). P(X)=____ (round to four decimal places) Can the normal distribution be used to approximate this probability? Approximate P(X) using the normal distribution. Select the correct choice below and fill in any answer boxes...
Decide whether you can use the normal distribution to approximate the binomial distribution. If you can use the normal distribution to approximate the indicated probabilities and sketch their graphs. If you cannot explain why and use the binomial distribution to find the indicated probabilities A survey of adults found that 8% say their favorite sport is auto racing. You randomly select 600 adults and ask them to name their favorite sport. Complete parts (a) through (d). Determine whether a normal...
Compute P(x) using the binomial probability formula. Then determine whether the normal distribution can be used as an approximation for the binomial distribution. If so, approximate P(x) and compare the result to the exact probability. n = 50, p = 0.5, x = 25