Concept explainers
Videos
Dwayne Cole, owner of a Florida firm that manufactures display cabinets, develops an 8-month aggregate plan. Demand and capacity (in units) are
The cost of producing each unit is $1,000 on regular time, $1,300 on overtime, and $1,800 on a subcontract. Inventory carrying cost is $200 per unit per month. There is no beginning or ending inventory in stock, and no backorders are permitted from period to period.
Let the production (workforce) vary by using regular time first, then overtime, and then subcontracting.
a) Set up a production plan that minimizes cost by producing exactly what the demand is each month. This plan allows no backorders or inventory. What is this plan’s cost?
b) Through better planning, regular time production can be set at exactly the same amount, 275 units, per month. If demand cannot be met there is no cost assigned to shortages and they will not be filled. Does this alter the solution?
c) If overtime costs per unit rise from $1,300 to $1,400, will your answer to (a) change? What if overtime costs then fall to $1,200?
a)
To determine: The total cost of the plan.
Introduction: The aggregate plan is the output of sales and operations planning. The major concern of aggregate planning is the production time and quantity for the intermediate future. Aggregate planning would encompass a time prospect of approximately 3 to 18 months.
Answer to Problem 19P
The total cost of the plan is $2,608,300.
Explanation of Solution
Given information:
Regular time cost per unit is given as $1,000, overtime cost is $1,300, and subcontract cost is $1,800 per unit. The capacity and demand are given as follows:
| Month | Demand | Regular time capacity | Overtime capacity | Subcontract capacity |
| Initial | 0 | 0 | 0 | 0 |
| January | 255 | 235 | 20 | 12 |
| February | 294 | 255 | 24 | 16 |
| March | 321 | 290 | 26 | 15 |
| April | 301 | 300 | 24 | 17 |
| May | 330 | 300 | 30 | 17 |
| June | 320 | 290 | 28 | 19 |
| July | 345 | 300 | 30 | 19 |
| August | 340 | 290 | 30 | 20 |
Calculate the total cost:
Table 1
Working note:
Demand, regular time capacity, overtime capacity, and subcontract capacity are given.
Determine regular time, overtime, and subcontract units for the month of January:
It is given that the demand for the month of January is 255 units. 235 units would be produced in the regular time (as the regular time capacity is 235). Remaining 20 units would be produced in the overtime (as the overtime capacity is 20). Hence, regular time unit is 235 units and overtime unit is 20 units.
Determine regular time, overtime, and subcontract units for the month of February:
It is given that the demand for the month of February is 294 units. 255 units would be produced in the regular time (as the regular time capacity is 255). From the remaining 39 units, 24 units would be produced in the overtime (as the overtime capacity is 24) and 15 units would be produced using subcontract (as the subcontract capacity is 16). Hence, regular time unit is 255 units, overtime unit is 24 units, and subcontract unit is 15 units.
Determine regular time, overtime, and subcontract units for the month of March:
It is given that the demand for the month of March is 321 units. 290 units would be produced in the regular time (as the regular time capacity is 290). From the remaining 31 units, 26 units would be produced in the overtime (as the overtime capacity is 26) and 5 units would be produced using subcontract (as the subcontract capacity is 15). Hence, regular time unit is 290 units, overtime unit is 26 units, and subcontract unit is 5 units.
Note: The procedure continues for all months.
Increase or decrease for the month of January:
There would be no increase or decrease for the month of January as there is no period compare.
Increase or decrease for the month of February:
Production in the month of January is 235 units and production in the month of February is 255 units. There is an increase of 20 units. Hence, there would be 20 units increase in February.
Increase or decrease for the month of March:
Production in the month of February is 255 units and production in the month of March is 290 units. There is an increase of 35 units. Hence, there would be 35 units increase in March.
Increase or decrease for the month of April:
Production in the month of March is 290 units and production in the month of April is 300 units. There is an increase of 10 units. Hence, there would be 10 units increase in April.
Increase or decrease for the month of May:
Production in the month of April is 300 units and production in the month of May is 300 units. As there is no change in the production units, there would not be any increase or decrease.
Increase or decrease for the month of June:
Production in the month of May is 300 units and production in the month of June is 290 units. There is a decrease of 10 units. Hence, there would be 10 units decrease in June.
Increase or decrease for the month of July:
Production in the month of June is 290 units and production in the month of July is 300 units. There is an increase of 10 units. Hence, there would be 10 units increase in July.
Increase or decrease for the month of August:
Production in the month of July is 300 units and production in the month of August is 290 units. There is a decrease of 10 units. Hence, there would be 10 units decrease in August.
Summary of the table:
| Type | Units | Cost |
| Regular time | 2,260 | $2,260,000 |
| Overtime | 189 | $245,700 |
| Subcontract | 57 | $102,600 |
| Holding | 0 | 0 |
| Shortage | 0 | 0 |
| Increase | 75 | 0 |
| Decrease | 20 | 0 |
| $2,608,300 |
Table 2
Working note:
Total units of regular time, overtime, subcontract, shortage, holding, increase, and decrease were calculated in theTable 1.
Calculate the regular time cost:
Regular time cost is calculated by multiplying regular time unit and the given regular time cost per unit. Hence, the regular time cost is $2,260,000.
Calculate the overtime cost:
Overtime cost is calculated by multiplying overtime unit and the given overtime cost per unit. Hence, the overtime cost is $245,700.
Calculate the subcontract cost:
Subcontract cost is calculated by multiplying subcontract unit and the given subcontract cost per unit. Hence, the subcontract cost is $102,600.
Calculate the increase and decrease cost:
As there is no increase or decrease cost per unit, it would remain 0.
Calculate the total cost:
Total cost is calculated by adding regular time cost, overtime cost, subcontract cost, holding cost, shortage cost, increase cost, and decrease cost.
Hence, the total cost of the plan is $2,608,300.
b)
To determine: The total cost of the plan.
Introduction: The aggregate plan is the output of sales and operations planning. The major concern of aggregate planning is the production time and quantity for the intermediate future. Aggregate planning would encompass a time prospect of approximately 3 to 18 months.
Answer to Problem 19P
The total cost of the plan is $2,585,100.
Explanation of Solution
Given information:
Regular time cost per unit is given as $1,000, overtime cost is $1,300, and subcontract cost is $1,800 per unit. The capacity and demand are given as follows:
| Month | Demand | Regular time capacity | Overtime capacity | Subcontract capacity |
| Initial | 0 | 0 | 0 | 0 |
| January | 255 | 275 | 20 | 12 |
| February | 294 | 275 | 24 | 16 |
| March | 321 | 275 | 26 | 15 |
| April | 301 | 275 | 24 | 17 |
| May | 330 | 275 | 30 | 17 |
| June | 320 | 275 | 28 | 19 |
| July | 345 | 275 | 30 | 19 |
| August | 340 | 275 | 30 | 20 |
Calculate the total cost:
Table 3
Working note:
Demand, regular time capacity, overtime capacity, and subcontract capacity are given.
Determine regular time, overtime, and subcontract units for the month of January:
It is given that the demand for the month of January is 255 units. Whole 255 units would be produced in the regular time (as the regular time capacity is 275). Hence, regular time unit is 255 units.
Determine regular time, overtime, and subcontract units for the month of February:
It is given that the demand for the month of February is 294 units. 275 units would be produced in the regular time (as the regular time capacity is 275). Remaining 19 units would be produced in the overtime (as the overtime capacity is 24). Hence, regular time unit is 275 units and overtime unit is 19 units.
Determine regular time, overtime, and subcontract units for the month of March:
It is given that the demand for the month of March is 321 units. 275 units would be produced in the regular time (as the regular time capacity is 290). From the remaining 46 units, 26 units would be produced in the overtime (as the overtime capacity is 26) and 15 units would be produced using subcontract (as the subcontract capacity is 15). Hence, regular time unit is 275 units, overtime unit is 26 units, and subcontract unit is 15 units. Remaining 5 units is a shortage.
Note: The procedure continues for all months.
Increase or decrease for the month of January:
There would be no increase or decrease for the month of January as there is no period compare.
Increase or decrease for the month of February:
Production in the month of January is 255 units and production in the month of February is 275 units. There is an increase of 20 units. Hence, there would be 20 units increase in February.
Increase or decrease from the month of March to August:
As the production for regular time remains the same, there would be no increase or decrease from the month of March to August.
Summary of the table:
| Type | Units | Cost |
| Regular time | 2,180 | $2,180,000 |
| Overtime | 187 | $243,100 |
| Subcontract | 90 | $162,000 |
| Holding | 0 | 0 |
| Shortage | 49 | 0 |
| Increase | 20 | 0 |
| Decrease | 0 | |
| $2,585,100 |
Table 4
Working note:
Total units of regular time, overtime, subcontract, shortage, holding, increase, and decrease were calculated in theTable 3.
Calculate the regular time cost:
Regular time cost is calculated by multiplying regular time unit and the given regular time cost per unit. Hence, the regular time cost is $2,180,000.
Calculate the overtime cost:
Overtime cost is calculated by multiplying overtime unit and the given overtime cost per unit. Hence, the overtime cost is $243,100.
Calculate the subcontract cost:
Subcontract cost is calculated by multiplying subcontract unit and the given subcontract cost per unit. Hence, the subcontract cost is $162,000.
Calculate the increase and decrease cost:
As there is no increase or decrease cost per unit, it would remain 0.
Calculate the total cost:
Total cost is calculated by adding regular time cost, overtime cost, subcontract cost, holding cost, shortage cost, increase cost, and decrease cost.
Hence, the total cost of the plan is $2,585,100.
c)
To determine: The total cost of the plan, if the overtime increased to $1,400.
Introduction: The aggregate plan is the output of sales and operations planning. The major concern of aggregate planning is the production time and quantity for the intermediate future. Aggregate planning would encompass a time prospect of approximately 3 to 18 months.
Answer to Problem 19P
The total cost of the plan is $2,627,200.
Explanation of Solution
Given information:
Regular time cost per unit is given as $1,000, overtime cost is $1,400, and subcontract cost is $1,800 per unit. The capacity and demand are given as follows:
| Month | Demand | Regular time capacity | Overtime capacity | Subcontract capacity |
| Initial | 0 | 0 | 0 | 0 |
| January | 255 | 235 | 20 | 12 |
| February | 294 | 255 | 24 | 16 |
| March | 321 | 290 | 26 | 15 |
| April | 301 | 300 | 24 | 17 |
| May | 330 | 300 | 30 | 17 |
| June | 320 | 290 | 28 | 19 |
| July | 345 | 300 | 30 | 19 |
| August | 340 | 290 | 30 | 20 |
Calculate the total cost:
Table 5
Working note:
Demand, regular time capacity, overtime capacity, and subcontract capacity are given.
Determine regular time, overtime, and subcontract units for the month of January:
It is given that the demand for the month of January is 255 units. 235 units would be produced in the regular time (as the regular time capacity is 235). Remaining 20 units would be produced in the overtime (as the overtime capacity is 20). Hence, regular time unit is 235 units and overtime unit is 20 units.
Determine regular time, overtime, and subcontract units for the month of February:
It is given that the demand for the month of February is 294 units. 255 units would be produced in the regular time (as the regular time capacity is 255). From the remaining 39 units, 24 units would be produced in the overtime (as the overtime capacity is 24) and 15 units would be produced using subcontract (as the subcontract capacity is 16). Hence, regular time unit is 255 units, overtime unit is 24 units, and subcontract unit is 15 units.
Determine regular time, overtime, and subcontract units for the month of March:
It is given that the demand for the month of March is 321 units. 290 units would be produced in the regular time (as the regular time capacity is 290). From the remaining 31 units, 26 units would be produced in the overtime (as the overtime capacity is 26) and 5 units would be produced using subcontract (as the subcontract capacity is 15). Hence, regular time unit is 290 units, overtime unit is 26 units, and subcontract unit is 5 units.
Note: The procedure continues for all months.
Increase or decrease for the month of January:
There would be no increase or decrease for the month of January as there is no period compare.
Increase or decrease for the month of February:
Production in the month of January is 235 units and production in the month of February is 255 units. There is an increase of 20 units. Hence, there would be 20 units increase in February.
Increase or decrease for the month of March:
Production in the month of February is 255 units and production in the month of March is 290 units. There is an increase of 35 units. Hence, there would be 35 units increase in March.
Increase or decrease for the month of April:
Production in the month of March is 290 units and production in the month of April is 300 units. There is an increase of 10 units. Hence, there would be 10 units increase in April.
Increase or decrease for the month of May:
Production in the month of April is 300 units and production in the month of May is 300 units. As there is no change in the production units, there would not be any increase or decrease.
Increase or decrease for the month of June:
Production in the month of May is 300 units and production in the month of June is 290 units. There is a decrease of 10 units. Hence, there would be 10 units decrease in June.
Increase or decrease for the month of July:
Production in the month of June is 290 units and production in the month of July is 300 units. There is an increase of 10 units. Hence, there would be 10 units increase in July.
Increase or decrease for the month of August:
Production in the month of July is 300 units and production in the month of August is 290 units. There is a decrease of 10 units. Hence, there would be 10 units decrease in August.
Calculate the total cost if the overtime cost per unit increased to $1,400:
| Type | Units | Cost |
| Regular time | 2,260 | $2,260,000 |
| Overtime | 189 | $264,600 |
| Subcontract | 57 | $102,600 |
| Holding | 0 | 0 |
| Shortage | 0 | 0 |
| Increase | 75 | 0 |
| Decrease | 20 | 0 |
| $2,627,200 |
Table 6
Working note:
Total units of regular time, overtime, subcontract, shortage, holding, increase, and decrease were calculated in theTable 5.
Calculate the regular time cost:
Regular time cost is calculated by multiplying regular time unit and the given regular time cost per unit. Hence, the regular time cost is $2,260,000.
Calculate the overtime cost:
Overtime cost is calculated by multiplying overtime unit and the given overtime cost per unit. Hence, the overtime cost is $264,600.
Calculate the subcontract cost:
Subcontract cost is calculated by multiplying subcontract unit and the given subcontract cost per unit. Hence, the subcontract cost is $102,600.
Calculate the increase and decrease cost:
As there is no increase or decrease cost per unit, it would remain 0.
Calculate the total cost:
Total cost is calculated by adding regular time cost, overtime cost, subcontract cost, holding cost, shortage cost, increase cost, and decrease cost.
Hence, the total cost of the plan is $2,627,200.
Calculate the total cost if the overtime cost per unit increased to $1,200:
| Type | Units | Cost |
| Regular time | 2,260 | $2,260,000 |
| Overtime | 189 | $226,800 |
| Subcontract | 57 | $102,600 |
| Holding | 0 | 0 |
| Shortage | 0 | 0 |
| Increase | 75 | 0 |
| Decrease | 20 | 0 |
| $2,589,400 |
Table 7
Working note:
Total units of regular time, overtime, subcontract, shortage, holding, increase, and decrease were calculated in theTable 6.
Calculate the regular time cost:
Regular time cost is calculated by multiplying regular time unit and the given regular time cost per unit. Hence, the regular time cost is $2,260,000.
Calculate the overtime cost:
Overtime cost is calculated by multiplying overtime unit and the given overtime cost per unit. Hence, the overtime cost is $264,600.
Calculate the subcontract cost:
Subcontract cost is calculated by multiplying subcontract unit and the given subcontract cost per unit. Hence, the subcontract cost is $102,600.
Calculate the increase and decrease cost:
As there is no increase or decrease cost per unit, it would remain 0.
Calculate the total cost:
Total cost is calculated by adding regular time cost, overtime cost, subcontract cost, holding cost, shortage cost, increase cost, and decrease cost.
Hence, the total cost of the plan is $2,589,400.
Want to see more full solutions like this?
Chapter 13 Solutions
Principles Of Operations Management
- B) Going forward, is Lean/JIT worth the risks? Should it be embraced (why?), abandoned (if so, why & what are the costs), or modified (how?) Do you think Lean works or not? Please write a complete response (about 1-2 paragraphs each part). Each team member should discuss and contribute so that the group agrees on their joint response. Please help each other and build upon and/or challenge others' points (in a respectful way!)arrow_forwardDiscuss the principle reasons that employee benefits have risen over the past 20 years, along with how best an organization can provide employees with a fair wage yet also provide some level of employee benefit coverage.arrow_forwardPlease assist with the Case Study below as attached. Read the case study below and answer the questions that follow. The Importance of the Planning Phase to Project Success. Traditional wisdom is that planning and analysis are very important and the more there is in a project, the more successful the project will be. Time spent on these activities will reduce risk and increase project success. On the other hand, inadequate analysis and planning will lead to a failed project. If poor planning has led to failed projects, then perhaps billions of dollars have been lost. But how much is too much? “Light weight” project management techniques such as agile are gaining popularity. Part of their ethos is that less initial planning is better and an evolutionary process is more efficient. QUESTION 1 The article above states: “Traditional wisdom is that planning and analysis are very important and the more there is in a project, the more successful the project will be”. Describe FIVE (5) ways…arrow_forward
- On a daily basis, the van is dispatched from Maplewood Hospital to pickup blood and platelet donations made at its local donation centers. The distances in miles between all locations may be found in the table below. Click the icon to view mileage data for Vampire Van. a. The van travels from the Hospital (A) to (B) to (C) to (D) to (E) and then returns to the Hospital (A). What is the total number of miles that the van must travel using this route? Route ABCDEA requires a total distance of 20.4 miles. (Enter your response rounded to one decimal place.) b. Using Maplewood Hospital as the beginning location, create a route using the Nearest Neighbor heuristic. What is the total number of miles that the van must travel using this route? The new route is A A and requires a total distance of miles. (Enter your response rounded to one decimal place.) More Info Maplewood City Center Westbrook Hospital (A) Donation Site (B) Donation Site (C) Municipal Park Donation Site (D) Valley Hills…arrow_forwardView the video Noodles & Company (8.28minutes, Ctrl + Click on the link); what are your key takeaways (tie to one or more of the topics discussed in Chapters 7 & 7S – service process design, type of job design, methods analysis, work methods, job design, learning curve effect, etc.) after watching this video. https://media.gaspar.mheducation.com/GASPARPlayer/play.html?id=E5i8OKgpqhwywhgFmpp1bmM Note: As a rough guideline, please try to keep the written submission to one or two paragraphs. 2) Leland, the job analyst at Zevo Toys, wanted to perform a time study on the assembling of toys. He observed one of the workers, Magorium, for five hours. During that time, Magorium assembled 250 toys. Leland rated Magorium as performing at 110 percent. The allowance for rest, personal time, etc. at Zevo Toys is 12 percent. a) Compute the normal time for the job. b) Compute the standard time for the job. Note: You could work out the problem by hand or use excel; in chapter 7,…arrow_forward1) Noodles & Company View the video Noodles & Company (8.28minutes, Ctrl + Click on the link); what are your key takeaways (tie to one or more of the topics discussed in Chapters 7 & 7S – service process design, type of job design, methods analysis, work methods, job design, learning curve effect, etc.) after watching this video. https://media.gaspar.mheducation.com/GASPARPlayer/play.html?id=E5i8OKgpqhwywhgFmpp1bmM Note: As a rough guideline, please try to keep the written submission to one or two paragraphs. 2) Leland, the job analyst at Zevo Toys, wanted to perform a time study on the assembling of toys. He observed one of the workers, Magorium, for five hours. During that time, Magorium assembled 250 toys. Leland rated Magorium as performing at 110 percent. The allowance for rest, personal time, etc. at Zevo Toys is 12 percent. a) Compute the normal time for the job. b) Compute the standard time for the job. Note: You could work out the problem by hand or use…arrow_forward
- An investigation of career development opportunities and job satisfaction atarrow_forwardThe Donald Fertilizer Company produces industrial chemical fertilizers. The projected manufacturing requirements (in gallons) for the next four quarters are 90,000, 90,000, 60,000, and 140,000 respectively. A level workforce is desired, relying only on anticipation inventory as a supply option. Stockouts and backorders are to be avoided, as are overtime and undertime. a. Determine the quarterly production rate required to meet total demand for the year, and minimize the anticipation inventory that would be left over at the end of the year. Beginning inventory is 0. The quarterly production rate is 95000 gallons. (Enter your response as an integer.) b. Specify the anticipation inventory that will be produced. (Enter your responses as an integers.) Quarter Anticipation inventory (gallons) 1 5000 2 10000 3 4 45000 c. Suppose that the requirements (in gallons) for the next four quarters are revised to 140,000, 60,000, 90,000, and 90,000 respectively. If total demand is the same, what level…arrow_forwardPlease help with the attached Capstone proposal Requirements:arrow_forward
- Long term capacity plans and how to properly make decisions regarding long-term planning Long-term capacity plans cover periods longer periods of time. These plans are suitable for large businesses that want to scale their operations with a proven strategy for achieving production targets and meeting customer demands. Long-term capacity plans consider other factors apart from the productive requirements of the company. How important is it, in your mind, to properly make decisions regarding long-term capacity planning? How does this decision impact the present and future profitability of an organization? Be specific and give examples.arrow_forwardIn addition to the Amazon case study you provided, I'm curious if you've encountered other examples of companies successfully applying Little's Law to enhance their supply chain risk management practices. For instance, have you seen organizations use queuing theory to assess the potential ripple effects of disruptions, stress-test their contingency plans, or identify critical control points that require heightened monitoring and agility? Please provide a referencearrow_forwardSam's Pet Hotel operates 48 weeks per year, 6 days per week, and uses a continuous review inventory system. It purchases kitty litter for $13.00 per bag The following information is available about these bags: > Demand 85 bags/week >Order cost $60.00/order > Annual holding cost = 35 percent of cost > Desired cycle-service level 80 percent > Lead time = 4 weeks (24 working days) > Standard deviation of weekly demand = 15 bags > Current on-hand inventory is 320 bags, with no open orders or backorders. a. Suppose that the weekly demand forecast of 85 bags is incorrect and actual demand averages only 65 bags per week. How much higher will total costs be, owing to the distorted EOQ caused by this forecast error? The costs will be $higher owing to the error in EOQ. (Enter your response rounded to two decimal places.)arrow_forward
Practical Management ScienceOperations ManagementISBN:9781337406659Author:WINSTON, Wayne L.Publisher:Cengage,
Purchasing and Supply Chain ManagementOperations ManagementISBN:9781285869681Author:Robert M. Monczka, Robert B. Handfield, Larry C. Giunipero, James L. PattersonPublisher:Cengage Learning
MarketingMarketingISBN:9780357033791Author:Pride, William MPublisher:South Western Educational Publishing