15. The Goodparts Company produces a component that is subsequently used in the aero- space industry. The component consists of three parts (A, B, and C) that are purchased from outside and cost 40, 35, and 15 cents per piece, respectively. Parts A and B are assembled first on assembly line 1, which produces 140 components per hour. Part C un- dergoes a drilling operation before being finally assembled with the output from assem- bly line 1. There are in total six drilling machines, but at present only three of them are operational. Each drilling machine drills part C at a rate of 50 parts per hour. In the final assembly, the output from assembly line 1 is assembled with the drilled part C. The final assembly line produces at a rate of 160 components per hour. At present, components are produced eight hours a day and five days a week. Management believes that if need arises, it can add a second shift of eight hours for the assembly lines. The cost of assembly labor is 30 cents per part for each assembly line; the cost of drill- ing labor is 15 cents per part. For drilling, the cost of electricity is one cent per part. The total overhead cost has been calculated as $1,200 per week. The depreciation cost for equipment has been calculated as $30 per week. a. Draw a process flow diagram and determine the process capacity (number of compo- nents produced per week) of the entire process. b. Suppose a second shift of eight hours is run for assembly line 1 and the same is done for the final assembly line. In addition, four of the six drilling machines are made operational. The drilling machines, however, operate for just eight hours a day. What is the new process capacity (number of components produced per week)? Which of the three operations limits the capacity? c. Management decides to run a second shift of eight hours for assembly line 1 plus a second shift of only four hours for the final assembly line. Five of the six drilling machines operate for eight hours a day. What is the new capacity? Which of the three operations limits the capacity? d. Determine the cost per unit output for questions (b) and (c). e. The product is sold at $4.00 per unit. Assume that the cost of a drilling machine (fixed cost) is $30,000 and the company produces 8,000 units per week. Assume that four drilling machines are used for production. If the company had an option to buy the same part at $3.00 per unit, what would be the break-even number of units?

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Author:WINSTON, Wayne L.
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15. The Goodparts Company produces a component that is subsequently used in the aero-
space industry. The component consists of three parts (A, B, and C) that are purchased
from outside and cost 40, 35, and 15 cents per piece, respectively. Parts A and B are
assembled first on assembly line 1, which produces 140 components per hour. Part C un-
dergoes a drilling operation before being finally assembled with the output from assem-
bly line 1. There are in total six drilling machines, but at present only three of them are
operational. Each drilling machine drills part C at a rate of 50 parts per hour. In the final
assembly, the output from assembly line 1 is assembled with the drilled part C. The final
assembly line produces at a rate of 160 components per hour. At present, components are
produced eight hours a day and five days a week. Management believes that if need arises,
it can add a second shift of eight hours for the assembly lines.
The cost of assembly labor is 30 cents per part for each assembly line; the cost of drill-
ing labor is 15 cents per part. For drilling, the cost of electricity is one cent per part. The
total overhead cost has been calculated as $1,200 per week. The depreciation cost for
equipment has been calculated as $30 per week.
a. Draw a process flow diagram and determine the process capacity (number of compo-
nents produced per week) of the entire process.
b. Suppose a second shift of eight hours is run for assembly line 1 and the same is done
for the final assembly line. In addition, four of the six drilling machines are made
operational. The drilling machines, however, operate for just eight hours a day. What
is the new process capacity (number of components produced per week)? Which of
the three operations limits the capacity?
c. Management decides to run a second shift of eight hours for assembly line 1 plus
a second shift of only four hours for the final assembly line. Five of the six drilling
machines operate for eight hours a day. What is the new capacity? Which of the three
operations limits the capacity?
d. Determine the cost per unit output for questions (b) and (c).
e. The product is sold at $4.00 per unit. Assume that the cost of a drilling machine (fixed
cost) is $30,000 and the company produces 8,000 units per week. Assume that four
drilling machines are used for production. If the company had an option to buy the
same part at $3.00 per unit, what would be the break-even number of units?
Transcribed Image Text:15. The Goodparts Company produces a component that is subsequently used in the aero- space industry. The component consists of three parts (A, B, and C) that are purchased from outside and cost 40, 35, and 15 cents per piece, respectively. Parts A and B are assembled first on assembly line 1, which produces 140 components per hour. Part C un- dergoes a drilling operation before being finally assembled with the output from assem- bly line 1. There are in total six drilling machines, but at present only three of them are operational. Each drilling machine drills part C at a rate of 50 parts per hour. In the final assembly, the output from assembly line 1 is assembled with the drilled part C. The final assembly line produces at a rate of 160 components per hour. At present, components are produced eight hours a day and five days a week. Management believes that if need arises, it can add a second shift of eight hours for the assembly lines. The cost of assembly labor is 30 cents per part for each assembly line; the cost of drill- ing labor is 15 cents per part. For drilling, the cost of electricity is one cent per part. The total overhead cost has been calculated as $1,200 per week. The depreciation cost for equipment has been calculated as $30 per week. a. Draw a process flow diagram and determine the process capacity (number of compo- nents produced per week) of the entire process. b. Suppose a second shift of eight hours is run for assembly line 1 and the same is done for the final assembly line. In addition, four of the six drilling machines are made operational. The drilling machines, however, operate for just eight hours a day. What is the new process capacity (number of components produced per week)? Which of the three operations limits the capacity? c. Management decides to run a second shift of eight hours for assembly line 1 plus a second shift of only four hours for the final assembly line. Five of the six drilling machines operate for eight hours a day. What is the new capacity? Which of the three operations limits the capacity? d. Determine the cost per unit output for questions (b) and (c). e. The product is sold at $4.00 per unit. Assume that the cost of a drilling machine (fixed cost) is $30,000 and the company produces 8,000 units per week. Assume that four drilling machines are used for production. If the company had an option to buy the same part at $3.00 per unit, what would be the break-even number of units?
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