Question
In: Statistics and Probability
Lots of 30,000 units from a supplier are shipped to a customer. The fraction of nonconformities...
Lots of 30,000 units from a supplier are shipped to a customer. The fraction of nonconformities is between 0.0027 and 0.058. Please draw the OC curve of a conventional acceptance-sampling plan with ? = 50 and ? = 1.
Solutions
Expert Solution
Answer:
Given that:
Lots of 30,000 units from a supplier are shipped to a customer. The fraction of nonconformities is between 0.0027 and 0.058.
From the above information
d is no of defective in sample the life is accepted if 
N is large
Probabilityof acceptance 
For 
For 
For 
for 
For 
For 
orchestra answered 1 year agoRelated Solutions
An industrial supplier has shipped a truckload of teflon lubricant cartridges to an aerospace customer. The...
An industrial supplier has shipped a truckload of teflon
lubricant cartridges to an aerospace customer. The customer has
been assured that the mean weight of these cartridges is in excess
of the 12 ounces printed on each cartridge. To check this claim, a
sample of n = 23 cartridges are randomly selected from the shipment
and carefully weighed. Summary statistics for the sample are: x =
12.18 ounces, s = .23 ounce. To determine whether the supplier's
claim is true,...
1-3) An industrial supplier has shipped a truckload of teflon lubricant cartridges to an aerospace customer....
1-3) An industrial supplier has shipped a truckload of teflon
lubricant cartridges to an aerospace customer. The customer has
been assured that the mean weight of these cartridges is more than
15 ounces. To check this claim, a sample of 25 cartridges are
randomly selected from the shipment and carefully weighed. Summary
statistics for the sample are:
x-bar=15.16 ounces, s = .30 ounces
1. The appropriate hypotheses to test are:
A. H0: x-bar ≤ 15 versus H1: x-bar > 15....
A distributor of computer parts purchases a specific component from a supplier in lots of 1000...
A distributor of computer parts purchases a specific component
from a supplier in lots of 1000 units. The cost of purchasing a lot
is $30,000. The supplier is known to supply imperfect lots. In
other words, a lot received by the distributor may contain
defective units. Historical data suggest that the proportion of
defective units in a lot supplied by this supplier follows the
following probability distribution:
Proportion of defective
units in a lot
Probability
0.05
0.50
0.10
0.25
0.25...
A distributor of computer parts purchases a specific component from a supplier in lots of 1000...
A distributor of computer parts purchases a specific component
from a supplier in lots of 1000 units. The cost of purchasing a lot
is $30,000. The supplier is known to supply imperfect lots. In
other words, a lot received by the distributor may contain
defective units. Historical data suggest that the proportion of
defective units in a lot supplied by this supplier follows the
following probability distribution:
Proportion of defective
units in a lot
Probability
0.05
0.50
0.10
0.25
0.25...
A domestic manufacturer of watches purchases quartz crystals from a Swiss firm. The crystals are shipped in lots of 1,000.
A domestic manufacturer of watches purchases quartz crystals from a Swiss firm. The crystals are shipped in lots of 1,000. The acceptance sampling procedure uses 15 randomly selected crystals
If
p0 = 0.01
and
p1 = 0.08,
what are the producer's and consumer's risks for each sampling plan in part (a)? (Round your answers to four decimal places.)
c
Producer's Risk
Consumer's Risk
0
1
2
A domestic manufacturer of watches purchases quartz crystals from a Swiss firm. The crystals are shipped in lots of 1,000.
A domestic manufacturer of watches purchases quartz crystals from a Swiss firm. The crystals are shipped in lots of 1,000. The acceptance sampling procedure uses 15 randomly selected crystals.
If
p0 = 0.01
and
p1 = 0.08,
what are the producer's and consumer's risks for each sampling plan in part (a)? (Round your answers to four decimal places.)
c
Producer's Risk
Consumer's Risk
0
.1399
.2863
1
2
Components of a certain type are shipped to a supplier in batches of ten. Suppose that...
Components of a certain type are shipped to a supplier in
batches of ten. Suppose that 52% of all such
batches contain no defective components, 31%
contain one defective component, and 17% contain
two defective components. Two components from a batch are randomly
selected and tested. What are the probabilities associated with 0,
1, and 2 defective components being in the batch under each of the
following conditions? (Round your answers to four decimal
places.)
(a) Neither tested component is...
Components of a certain type are shipped to a supplier in batches of ten. Suppose that...
Components of a certain type are shipped to a supplier in
batches of ten. Suppose that 79% of all such batches contain no
defective components, 15% contain one defective component, and 6%
contain two defective components. Two components from a batch are
randomly selected and tested. What are the probabilities associated
with 0, 1, and 2 defective components being in the batch under each
of the following conditions?
(a) Neither tested component is defective.
0:
1:
2:
(b) One of...
Components of a certain type are shipped to a supplier in batches of ten. Suppose that...
Components of a certain type are shipped to a supplier in
batches of ten. Suppose that 50% of all such batches contain no
defective components, 32% contain one defective component, and 18%
contain two defective components. Two components from a batch are
randomly selected and tested. What are the probabilities associated
with 0, 1, and 2 defective components being in the batch under each
of the following conditions? (Round your answers to four decimal
places.)
(a) Neither tested component is...
Components of a certain type are shipped to a supplier in batches of ten. Suppose that...
Components of a certain type are shipped to a supplier in
batches of ten. Suppose that 49% of all such batches contain no
defective components, 31% contain one defective component, and 20%
contain two defective components. Two components from a batch are
randomly selected and tested. What are the probabilities associated
with 0, 1, and 2 defective components being in the batch under each
of the following conditions? (Round your answers to four decimal
places.)
(a) Neither tested component is...
ADVERTISEMENT
ADVERTISEMENT
Latest Questions
- How do you perform the mechanical advantage equation and howto find the f required to move...
- Please change it in other words because it is plagiarized Topic: Training and development impact on...
- I need the swot analisis for the Tesla Car model 3
- A group of students pool their meagre resources to start a business. Their plan is to...
- Write a function collision(p1, start1, p2, start2) that takes p1 and start1 of one vehicle, and...
- The performance of the bank branch manager is often difficult to measure. Evaluation can include such...
- Write a balanced reaction that describes the conversion of Spessartine (Mn3Al2Si3O12) to Tephroite (Mn2SiO4), Kyanite (Al2SiO5),...
ADVERTISEMENT