Answer to Question #267134 in Operations Research for Bil

Given information:

Mean arrival rate=5 per hour

λ="\\frac{5}{60}""=\\frac{1}{12}" per minute 

Mean service rate"=\\frac{1}{\\mu}=19\\ minutes"

"\\mu=\\frac{1}{19}\\ per\\ mimute"

(a)

"L_s=\\frac{\\lambda}{\\mu-\\lambda}"

"=\\frac{1}{12}\\div(\\frac{1}{19}-\\frac{1}{12})"

=2.7143

Average number of customers in the shop is 2.71.

Expected number of customers in the queue ="\\frac{\\lambda^2}{\\mu(\\mu-\\lambda)}"

"=\\frac{(0.083)^2}{0.053(0.053-0.083)}"

=4.2976

=4.3

(b) P(Customer directly goes to the barber's chair)"=1-\\frac{\\lambda}{\\mu}"

"=1-(\\frac{1}{12}\\div\\frac{1}{19})"

=0.58333

=0.58333×100%

The percentage of time arrival can walk in right without having to wait is 58.33%.

(c) P(Customer directly goes to the barber's chair)=1-P(W=0)

1-0.58333

=0.41667

=0.41667×100%

=41.67%

The percentage of customers who have to wait before getting into the barber’s chair is 41.67%.