Assume that when adults with smartphones are randomly​ selected, 5858​% use them in meetings or classes. If 66 adult smartphone users are randomly​ selected, find the probability that at least 44 of them use their smartphones in meetings or classes. In a binomial probability​ distribution, probabilities can be calculated by using​ technology, a table of binomial​probabilities, or the binomial probability​ formula, shown below where n is the number of​ trials, x is the number of successes among n​ trials, p is the probability of success in any one​ trial, and q is the probability of failure in any one trial left parenthesis q equals 1 minus p right parenthesis .(q=1−p).   Upper P left parenthesis x right parenthesisP(x)equals=StartFraction n exclamation mark Over left parenthesis n minus x right parenthesis exclamation mark x exclamation mark EndFraction times p Superscript x Baseline times q Superscript n minus xn!(n−x)!x!•px•qn−x​,   for xequals=​0, ​1, 2,..., n To use this formula to evaluate the probability of Xgreater than or equals≥x successes or Xless than or equals≤x ​successes, find the sum of​ P(x) for all values of X that satisfy the inequality. Identify the values of​ n, x, and p.   nequals=66 ​, xequals=44 ​, pequals=. 58.58 ​(Type an integer or a decimal. Do not​ round.) The statement​ "at least 44​" corresponds to the inequality Upper X greater than or equals 4.X≥4.   Substitute the values for​ n, x, and p into technology for each possible value of x greater than or equal to 44 to find each probability. Then sum to find Upper P left parenthesis Upper X greater than or equals 4 right parenthesisP(X≥4).

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Assume that when adults with smartphones are randomly​ selected,
5858​%
use them in meetings or classes. If
66
adult smartphone users are randomly​ selected, find the probability that at least
44
of them use their smartphones in meetings or classes.
In a binomial probability​ distribution, probabilities can be calculated by using​ technology, a table of binomial​probabilities, or the binomial probability​ formula, shown below where n is the number of​ trials, x is the number of successes among n​ trials, p is the probability of success in any one​ trial, and q is the probability of failure in any one trial
left parenthesis q equals 1 minus p right parenthesis .(q=1−p).
 
Upper P left parenthesis x right parenthesisP(x)equals=StartFraction n exclamation mark Over left parenthesis n minus x right parenthesis exclamation mark x exclamation mark EndFraction times p Superscript x Baseline times q Superscript n minus xn!(n−x)!x!•px•qn−x​,
  for
xequals=​0,
​1, 2,..., n
To use this formula to evaluate the probability of
Xgreater than or equals≥x
successes or
Xless than or equals≤x
​successes, find the sum of​ P(x) for all values of X that satisfy the inequality.
Identify the values of​ n, x, and p.
 
nequals=66
​,
xequals=44
​,
pequals=. 58.58
​(Type an integer or a decimal. Do not​ round.)
The statement​ "at least
44​"
corresponds to the inequality
Upper X greater than or equals 4.X≥4.
 
Substitute the values for​ n, x, and p into technology for each possible value of x greater than or equal to
44
to find each probability. Then sum to find
Upper P left parenthesis Upper X greater than or equals 4 right parenthesisP(X≥4).
 
 
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