ࡱ> hjefg bjbjWW g!== v>->----T---z.\0-mh22"222444m!m!m!m!m!m!m$rtEm-:9k4@4:9:9Em>->-22ZmCCC:9>-82-2mC:9mCC]v-f2pT5:"Ke6 mpm0meu&=Xulfu-f|4d6C 77a444EmEm~@:444m:9:9:9:9u444444444 ,: CHAPTER 11 strategic cost management discussion QUESTIONS 1. A competitive advantage is providing better customer value for the same or lower cost or equivalent value for lower cost. The cost management system must provide information that helps identify strategies that will create a cost leadership position. 2. Customer value is the difference between what a customer receives and what the customer gives up (customer realization less customer sacrifice). Cost leadership focuses on minimizing customer sacrifice. A differentiation strategy, on the other hand, focuses on increasing customer realization, with the goal of ensuring that the value added exceeds the costs of providing the differentiation. Focusing selects the customers to which value is to be delivered. Strategic positioning is the choice of the mix of cost leadership, differentiation, and focusing that a company will emphasize. 3. External linkages describe the relationship between a firms value chain and the value chain of its suppliers and customers. Internal linkages are relationships among the activities within a firms value chain. 4. Organizational activities are activities that determine the structure and business pro-cesses of an organization. Operational activities are the day-to-day activities that result from the structure and processes chosen by an organization. Organizational cost drivers are the structural and procedural factors that determine a firms long-term cost structure. Operational cost drivers are the factors that drive the cost of the day-to-day activities. 5. A structural cost driver is a factor that drives costs associated with the organizations structure, such as scale and scope factors. Examples include number of plants and management style. Executional cost drivers are factors that determine the cost of activities related to a firms ability to execute successfully. Examples include degree of employee participation and plant layout efficiency. 6. Value-chain analysis involves identifying those internal and external linkages that result in a firm achieving either a cost leadership or differentiation strategy. Managing organizational and operational cost drivers to create long-term cost reductions is a key element in the analysis. Value-chain analysis is a form of strategic cost management. It shares the same goal of creating a long-term competitive advantage by using cost information. 7. An industrial value chain is the linked set of value-creating activities from basic raw materials to end-use customers. Knowing an activitys relative position in the value chain is vital for strategic analysis. For example, knowing the relative economic position in the industrial chain may reveal a need to backward or forward integrate in the chain. A total quality control strategy also reveals the importance of external linkages. Suppliers, for example, create parts that are used in products downstream in the value chain. Producing defect-free parts depends strongly on the quality of parts provided by suppliers. 8. The three viewpoints of product life cycle are the marketing viewpoint, the production viewpoint, and the consumption viewpoint. They differ by the nature of the stages and the nature of the entitys life being defined. The marketing viewpoint has a revenue-oriented viewpoint, the production viewpoint is expense oriented, and the consumption viewpoint is customer value oriented. 9. The four stages of the marketing life cycle are introduction, growth, maturity, and decline. The stages relate to the sales function over the life of the product. The introduction stage is slow growth, the growth stage is rapid growth, the maturity stage is growth but at a decreasing rate, and the decline stage is characterized by decreasing sales. 10. Life-cycle costs are all costs associated with the product for its entire life cycle. These costs correspond to the costs of the activities associated with the production life cycle: research and development, production, and logistics. 11. The four stages of the consumption life cycle are purchasing, operating, maintaining, and disposal. Post-purchase costs are those costs associated with operating, maintaining, and disposing of a product. Knowing these costs is important because a producer can create a competitive advantage by offering products with lower post-purchase costs than products offered by competitors. 12. Agree. According to evidence, ninety percent of a products costs are committed during the development stage. Furthermore, $1 spent during this stage on preproduction activities can save $8$10 on production and postproduction activities. Clearly, the time to manage activities is during the development stage. 13. Target costing is the setting of a cost goal needed to capture a given market share and earn a certain level of profits. Actions are then taken to achieve this goalusually by seeking ways to reduce costs to the point where the plan becomes feasible (often by seeking better product designs). This is consistent with the cost reduction emphasis found in life-cycle cost management. 14. Cells act as a factory within a factory. Each cell is dedicated to the production of a single product or subassembly. Costs associated with the cell belong to the cells output. By decentralizing services and redeploying equipment and employees to the cell level, the quantity of directly attributable costs increases dramatically. 15. Backflush costing is a simplified approach to accounting for manufacturing cost flows. It uses trigger points to determine when costs are assigned to inventory or temporary accounts. In the purest form, the only trigger point is when the goods are sold. In this variation, the manufacturing costs are flushed out of the system by debiting Cost of Goods Sold and crediting Accounts Payable and Conversion Cost Control. Other trigger points are possible but entail more journal entry activity and involve some inventory accounts. CORNERSTONE EXERCISES Cornerstone Exercise 11.1 1. Material usage cost reduction 192,000($20 $16) $ 768,000 Labor usage cost reduction (90,000 72,000)$14 252,000 Purchasing cost reduction* $45,000 + [$0.80(17,100 10,500)] 50,280 Total savings $1,070,280 *Based on the new demand, the number of clerks can be reduced by one, saving $45,000 (10,500/5,000 implies the need for three clerks). 2. New price = $8,800 ($1,070,280/50,000) = $8,878.59* *Rounded to the nearest cent. 3. Since each purchasing agent can process 5,000 orders, only two agents are needed, saving an additional $45,000 of salary costs. Variable purchasing costs would also drop by an additional $1,600 [$0.80 (10,500 8,500)]. Thus, total savings would increase by $46,600, and the new price would decrease by an additional $0.93 ($46,500/50,000) to $8,877.66* *Rounded to the nearest cent. Cornerstone Exercise 11.2 1. Adverse buying rate = $600,000/7,500* = $80 per adverse purchase *(750 + 750 + 3,000 + 3,000) Supplier return rate = $90,000/3,750* = $24 per return *(375 + 375 + 1,500 + 1,500) Cornerstone Exercise 11.2 (Concluded) 2. 22. Jones Glass Claro Glass Side WS Side WS Adverse purchases: $80 750 $60,000 $80 3,000 $240,000 $80 750 $60,000 $80 3,000 $240,000 Returns: $24 375 9,000 $24 1,500 36,000 $24 375 9,000 $24 1,500 36,000 Total costs $69,000 $69,000 $276,000 $276,000 Units 15,000 15,000 30,000 30,000 Unit cost $ 4.60 $ 4.60 $ 9.20 $ 9.20 Unit purchase cost 60.00 135.00 57.00 132.00 Total unit cost $ 64.60 $139.60 $ 66.20 $ 141.20 3. Based on lowest cost: Side Windows: 15,000 from Jones and 30,000 from Claro; WS: 45,000 from Jones and 0 from Claro. First, the better (low-cost) supplier is Jones and yet it is not possible to buy more side windows from them. Second, there may be some concern that Claro may become less cooperative if they lose all of the WS business and they may limit access to the side windows, depending on market conditions. Another possibility is to not shift all WS business to Jones unless they are willing to sell more side windows. Alternatively, it may also be possible to work out some of the problems with both Jones and Claro without changing the current mix significantly. Cornerstone Exercise 11.3 1. Ordering cost allocation for each customer category: (350,000/700,000*) $2,715,000 = $1,357,500 *Total units sold = (10 35,000) + (100 3,500) = 350,000 + 350,000 = 700,000 Bid price: Either customer category = [$50 + ($1,375,500/350,000)] 1.40 = $75.50 2. Order cost allocation for each customer category: Frequently ordering: (35,000/38,500) $2,715,000 = $2,468,182* Less frequently ordering: (3,500/38,500) $2,715,000 = $246,818* *Rounded to the nearest dollar. Bid price for each customer type: Frequently ordering: [$50 + ($2,468,182/350,000)] 1.40 = $79.87* Less frequently ordering: [$50 + ($246,818/350,000)] 1.40 = $70.99* *Rounded to the nearest cent. Deeds could easily have won the bid for the 100 units, as the price is more than $4 lower than the original bid price. 3. Orders for 35 units = 350,000/35 = 10,000 (frequent order category) Total orders = 10,000 + 3,500 = 13,500 Capacity (number of clerks or steps) = 13,500/1,000 = 13.5 = 14 steps Order-filling cost = (14 $40,000) + ($30 13,500) = $965,000 Order-filling cost assigned to frequent category = (10,000/13,500) $965,000 = $714,815* *Rounded to the nearest dollar. Bid price (frequent category) = [$50 + ($714,815/350,000)] 1.40 = $72.86* *Rounded to the nearest cent. Yes, the new price based on quantity discounting incentives is lower than the original bid price and so the original bid price could be offered without decreasing profits under this new structure. Cornerstone Exercise 11.4 1. Design A Design B Direct materialsa $ 6,000,000 $ 5,500,000 Conversion costb 5,000,000 12,000,000 Total manufacturing costs $11,000,000 $17,500,000 Units produced 25,000 25,000 Unit cost $ 440 $ 700 a$20 300,000; $20 275,000 b$100 50,000; $100 120,000 Logistical and post-purchase activities are not considered in this analysis. 2. Design A Design B Direct materials $ 6,000,000 $ 5,500,000 Direct labora 750,000 1,800,000 Machininga 3,750,000 4,500,000 Purchasinga 300,000 225,000 Setupsb 1,800,000 600,000 Warrantyb 500,000 125,000 Total product costs $13,100,000 $12,750,000 Units produced 25,000 25,000 Unit cost $ 524 $ 510 Post-purchase costsb $ 50,000 $ 12,500 a$15 50,000; $15 120,000; $75 50,000; $75 60,000; $150 2,000; $150 1,500 b$3,000 600; $3,000 200; $500 1,000; $500 250; $25 2,000; $25 500 ABC assigns manufacturing costs using both unit and non-unit drivers. It also considers the effects of manufacturing, logistical, and post-purchase activities (unit-based uses only manufacturing activities). 3. The post-purchase cost is $250,000 ($10 25,000) for A and $1,000,000 for B ($40 25,000). Although this cost is not paid for by the firm, it makes the total cost of A less than B, and A becomes the environmentally cleaner product of the two, better meeting the green product objective. Since both products meet the target cost, A is the better strategic investment. Cornerstone Exercise 11.5 1. Transaction Traditional Journal Entries 1. Purchase of Materials Inventory 600,000 raw materials Accounts Payable 600,000 2. Materials Work-in-Process Inventory 600,000 issued to Materials Inventory 600,000 production 3. Direct labor Work-in-Process Inventory 90,000 cost incurred Wages Payable 90,000 4. Overhead Overhead Control 625,000 cost incurred Accounts Payable 625,000 5. Application Work-in-Process Inventory 585,000 of overhead Overhead Control 585,000 6. Completion Finished Goods Inventory 1,275,000 of goods Work-in-Process Inventory 1,275,000 7. Goods are Cost of Goods Sold 1,275,000 sold Finished Goods Inventory 1,275,000 8. Variance is Cost of Goods Sold 40,000 recognized Overhead Control 40,000 Transaction Backflush Journal Entries: Variation 1 1. Purchase of Raw Materials raw materials and In Process Inventory 600,000 Accounts Payable 600,000 2. Materials issued to No entry production 3. Direct labor Combined with OH: See next entry. cost incurred 4. Overhead Conversion Cost Control 715,000 cost incurred Wages Payable 90,000 Accounts Payable 625,000 5. Application No entry of overhead 6. Completion Finished Goods Inventory 1,275,000 of goods RIP Inventory 600,000 Conversion Cost Control 675,000 Cornerstone Exercise 11.5 (Concluded) Transaction Backflush Journal Entries: Variation 1 7. Goods are Cost of Goods Sold 1,275,000 sold Finished Goods Inventory 1,275,000 8. Variance is Cost of Goods Sold 40,000 recognized Conversion Cost Control 40,000 2. Entries 6 and 7 in Requirement 1 are replaced with the following entry: Cost of Goods Sold 1,275,000 Raw Materials and In Process Inventory 600,000 Conversion Cost Control 675,000 3. (a) No entry for Transaction 1; Transaction 6 is replaced with the following entry: Finished Goods Inventory 1,275,000 Accounts Payable 600,000 Conversion Cost Control 675,000 (b) No entry for Transaction 1; Entries 6 and 7 are replaced with the following: Cost of Goods Sold 1,275,000 Accounts Payable 600,000 Conversion Cost Control 675,000 Exercises Exercise 11.6 1. The total product consists of all tangible and intangible benefits. These include the computer, its features, its operating capabilities, maintainability, product reputation, service, and service reputation. 2. The Brand A company is pursuing a cost leadership strategy. It emphasizes lower post-purchase costs for the same product, features, and reputation (same value for lower cost). The Brand B company is paying less attention to post-purchase costs and more attention to servicing the product after the sale. Based on the PC magazine article, it has succeeded in differentiating its total product from that of its competitors based on service quality. Thus, more realization with greater customer sacrifice is being offered (relative to Brand A). 3. Apparently, the post-purchase service component is worth more than the $400 difference in post-purchase costs. All other product attributes are the same except for service reputation and post-purchase costs. One possible strategy for Brand A is to improve its service reputation and make sure that the post-purchase cost advantage persists. By narrowing the service quality difference, the competitive advantage should switch to Brand A. Exercise 11.7 1. The banks strategic position is defined by elements of all three general strategies. Broadening the market and selecting customer segments are focusing strategies. Offering special services to selected customer segments is both focusing and differentiation. Finally, improving process efficiency and eliminating nonproductive costs have some cost leadership elements. However, it appears that focusing and differentiation are more strongly emphasized than cost leadership. 2. Cost management was useful in identifying the profitable customer segments that were chosen to be emphasized. A key role for strategic cost management is the identification of sources of profitability. The ABC customer profitability analysis defined the five customers, allowing bank executives to decide which ones should be emphasized. Additionally, cost management will continue to serve an important role in strategic positioning. First, it can be used to assess the profitability success of targeted markets and customer segments. Second, it can be used to help identify opportunities for cost reduction so that the differentiation and focusing strategies have a greater chance of creating a competitive advantage. Exercise 11.8 a. Structural b. Operational c. Executional d. Executional e. Structural f. Structural g. Operational h. Operational i. Structural j. Executional k. Executional l. Operational m. Operational n. Executional o. Structural p. Operational q. Executional r. Structural s. Structural t. Executional Exercise 11.9 Inspecting products, reworking products, and warranty work: These are all quality-related activities. This suggests a strategic change in the organizational activity, providing quality, (an executional activity). The associated executional cost driver is quality approach. The cost of all three quality activities can be reduced by changing the driver from acceptable quality level (AQL) to total quality management (TQM). TQM emphasizes zero defects. As the organization strives to achieve a zero defect stage, the demand for inspecting products, reworking, and warranty work diminishes. As less activity demand occurs, resource spending on these activities can be reduced. Changes in other organizational activities may also bring about cost reductions. Both using employees (executional activity) and grouping employees (structural activity) can be beneficial. Multitask training and strong employee involvement can produce reductions in the cost of the three quality-related activities. Teams, known as quality control circles, can be beneficial. Moving materials: The driver is distance moved. This suggests that some attention needs to be given to the executional activity of providing plant layout. The driver is plant layout efficiency. Changing to a cellular format could bring about significant reductions in the cost of materials handling. Setting up equipment: Setup time is the driver. Designing processes, selecting and using process technologies, and providing plant layout are all organizational activities that can affect the setup activity. By choosing a cellular arrangement where the cell is dedicated to a product, setup time can be reduced to zero. For product families, a flexible manufacturing cell can also reduce the time to an insignificant level. Finally, it may be possible to redesign the setup activity so that it becomes much more efficient. Exercise 11.9 (Concluded) Purchasing parts: This activity is driven by the number of different parts. This is a driver that also relates to complexity, a structural activity. This suggests that reducing complexity will reduce the number of different parts needed and the cost of the purchasing activity. Additionally, the cost of this activity can be reduced by selecting the JIT process technology with its methods that reduce the need for parts inventories. Storing goods and materials: Reducing days in inventory reduces the cost of this activity. This suggests the possibility of looking at the structural activity: selecting and using process technologies. There are process technology choices such as JIT and theory of constraints that produce very low levels of inventory. Expediting orders: Reducing the number of late orders (increasing the number of on-time deliveries) will reduce the cost of this activity. This suggests a need to decrease production time, perhaps by looking at organizational activities such as plant layout and providing capacity. Increasing plant layout efficiency can decrease cycle time. Utilizing capacity efficiently can also decrease the number of late orders. Exercise 11.10 1. Supplier cost: First, calculate the activity rates for assigning costs to suppliers: Inspecting carburetors: $180,000/4,500 = $40 per sampling hour Expediting work: $144,000/300 = $480 per order Reworking products: $1,026,000/4,500 = $228 per rework hour Warranty work: $1,800,000/6,000 = $300 per warranty hour Next, calculate the cost per component by supplier: Supplier cost: Harvey Curtis Purchase cost: $64 40,000 $ 2,560,000 $57 120,000 $ 6,840,000 Inspecting carburetors: $40 90 3,600 $40 4,410 176,400 Expediting work: $480 30 14,400 $480 270 129,600 Reworking products: $228 270 61,560 $228 4,230 964,440 Warranty work: $300 300 90,000 $300 5,700 1,710,000 Total supplier cost $ 2,729,560 $ 9,820,440 Units supplied 40,000 120,000 Unit cost $ 68.24* $ 81.84* *Rounded to the nearest cent. The difference dramatically favors Harvey; furthermore, when the price concession is considered, the difference is even greater, With the discount and the 120,000 unit commitment, the unit cost of Harvey is $61.41 [$60 + ($2,729,560 - $2,560,000)/120,000)], which is much less than the Curtis carburetor. Jackson should give serious consideration to accepting the contractual offer made by Harvey given the savings will easily be more than $1 million. Exercise 11.10 (Concluded) 2. To assign the lost sales cost, it would be helpful to know the number of defective units using the Harvey carburetor versus those using the Curtis carburetor. Warranty hours would act as a very good substitute driver. Using this driver, the rate is $3,300,000/6,000 = $550 per warranty hour. The cost assigned to each component would be: Harvey Curtis Lost sales: $550 300 $ 165,000 $550 5,700 $ 3,135,000 This increases the cost of the Curtis carburetor by $3,135,000/120,000 = $26.13.* *Rounded to the nearest cent. Exercise 11.11 1. Sales revenue = $1.05 44,100,000 = $46,305,000 for each customer type. (Note: The total number of parts is the average order size times the number of sales orders.) Thus, the total customer-related activity costs are split equally: Cost allocation = 0.50 $12,390,000 = $6,195,000 The profitability of each category is calculated as follows: Sales revenue $46,305,000 Less: Noncustomer-related cost ($0.56 44,100,000) 24,696,000 Customer-related activity costs 6,195,000 Customer profitability $ 15,414,000 This profitability measure is suspect because the customer-related costs are assigned using revenues, a driver that is not causally related to the customer-related activity costs. This approach may actually have one set of customers subsidizing the other. Exercise 11.11 (Concluded) 2. Activity-based customer costing: First, calculate the activity rates for assigning costs to suppliers: Processing sales orders: $2,310,000/23,100 = $100 per order Scheduling production: $1,260,000/42,000 = $30 per scheduling hour Setting up equipment: $3,780,000/31,500 = $120 per setup Inspecting batches: $5,040,000/31,500 = $160 per inspection Next, assign the costs to the customers (those who place frequent orders and those who place infrequent orders): Frequent Infrequent Processing sales orders: $100 21,000 $ 2,100,000 $100 2,100 $ 210,000 Scheduling production: $30 36,750 1,102,500 $30 5,250 157,500 Setting up equipment: $120 26,250 3,150,000 $120 5,250 630,000 Inspecting batches: $160 26,250 4,200,000 $160 5,250 840,000 Total customer cost $10,552,500 $ 1,837,500 Profitability: Frequent Infrequent Sales revenue $46,305,000 $ 46,305,000 Less: Other costs 24,696,000 24,696,000 Customer-related costs 10,552,500 1,837,500 Customer profitability $11,056,500 $ 19,771,500 This outcome reveals that customers who place smaller, more frequent orders are not as profitable as believed. To increase profitability of this segment, management may consider the possibility of imposing a charge for orders below a certain size, thus reducing the demands on the four customer-related activities with a subsequent reduction in cost. Another possibility is to offer quantity discounts to encourage larger orders. Exercise 11.12 a. Marketing: Growth stage b. Customer: Post-purchase costs c. Marketing: Decline stage d. Interactive: Production and customer viewpoints. The linkage between design and the cost of using, maintaining, and disposing of the product is being exploited. e. Production: Cost commitment curve f. Customer: Consumable life g. Production: Life-cycle costs h. Marketing: Revenue-producing life i. Interactive: Marketing and customer viewpoints. Growth stage and customer value characteristics. What the customer receives for the price paid is important, yet competition is still not at its peak. j. Interactive: Marketing and customer viewpoints. Introduction stage and customer value are interacting. Here, customers tend to be innovators and are willing to try a new product, but performance expectations tend to be high. k. Marketing: Defines the marketing life-cycle viewpoint l. Customer: Describes the customer life-cycle viewpoint m. Interactive: Life-cycle cost management. Relies on knowledge of the linkages among all three viewpoints n. Production: Describes the production life-cycle viewpoint Exercise 11.13 DA = Direct attribution (tracing) DT = Driver tracing AL = Allocation Cost Item Before JIT After JIT a. Inspection costs DT DA b. Power to heat, light, and cool plant AL AL c. Minor repairs on production equipment DT DA d. Salary of production supervisor (dept./cell) AL DA e. Oil to lubricate machinery DT AL f. Salary of plant supervisor AL AL g. Costs to set up machinery DT DA h. Salaries of janitors AL AL i. Power to operate production equipment DT DTa j. Taxes on plant and equipment AL AL k. Depreciation on production equipment DT DA l. Raw materials DA DA m. Salary of industrial engineer DT DAb n. Parts for machinery DT DA o. Pencils and paper clips for production supervisor (dept./cell) DT DA p. Insurance on plant and equipment AL AL q. Overtime wages for cell workers DT DA r. Plant depreciation AL ALc s. Materials handling DT DA t. Preventive maintenance DT DA aDA, if each cell has a meter. bAssumes engineers are assigned to cells. cSome might argue that cell square footage would be a good driver so this is now DT. (We now know how much space is dedicated to each product.) Exercise 11.14 1. Maintenance cost per maintenance hour = $5,880,000/600,000 = $9.80 per maintenance hour Wheels: ($9.80 180,000)/157,500 = $11.20 per unit Pads: ($9.80 180,000)/157,500 = $11.20 per unit Bearings: ($9.80 240,000)/210,000 = $11.20 per unit 2. Wheels: $1,596,000/157,500 = $10.13* per unit Pads: $1,764,000/157,500 = $11.20 per unit Bearings: $2,520,000/210,000 = $12.00 per unit *Rounded to the nearest cent. 3. The JIT cost is more accurate because maintenance cost is directly traced to each product. There is no need to use an activity driver such as maintenance hours to assign this cost to each product. This improved traceability can be explained by two factors: multitask training and decentralization of services. Exercise 11.15 1. Materials Inventory 243,000 Accounts Payable 243,000 Work-in-Process Inventory 243,000 Materials Inventory 243,000 Work-in-Process Inventory 40,500 Wages Payable 40,500 Overhead Control 202,500 Accounts Payable 202,500 Work-in-Process Inventory 222,750 Overhead Control 222,750 Exercise 11.15 (Concluded) Finished Goods Inventory 506,250 Work-in-Process Inventory 506,250 Cost of Goods Sold 506,250 Finished Goods Inventory 506,250 Accounts Receivable 810,000 Sales Revenue 810,000 Overhead Control 20,250 Cost of Goods Sold 20,250 2. Raw Materials and In Process Inventory 243,000 Accounts Payable 243,000 Conversion Cost Control 243,000 Accounts Payable 202,250 Wages Payable 40,500 Finished Goods Inventory 506,250 Conversion Cost Control 263,250 Raw Materials and In Process Inventory 243,000 Cost of Goods Sold 506,250 Finished Goods Inventory 506,250 Accounts Receivable 810,000 Sales Revenue 810,000 Conversion Cost Control 20,250 Cost of Goods Sold 20,250 Exercise 11.16 Raw Materials and In Process Inventory 243,000 Accounts Payable 243,000 Conversion Cost Control 243,000 Accounts Payable 202,500 Wages Payable 40,500 Cost of Goods Sold 506,250 Raw Materials and In Process Inventory 243,000 Conversion Cost Control 263,250 Accounts Receivable 810,000 Sales Revenue 810,000 Conversion Cost Control 20,250 Cost of Goods Sold 20,250 Exercise 11.17 1. Conversion Cost Control 243,000 Accounts Payable 202,500 Wages Payable 40,500 Finished Goods Inventory 506,250 Accounts Payable 243,000 Conversion Cost Control 263,250 Cost of Goods Sold 506,250 Finished Goods Inventory 506,250 Accounts Receivable 810,000 Sales Revenue 810,000 Conversion Cost Control 20,250 Cost of Goods Sold 20,250 Exercise 11.17 (Concluded) 2. Conversion Cost Control 243,000 Accounts Payable 202,500 Wages Payable 40,500 Cost of Goods Sold 506,250 Accounts Payable 243,000 Conversion Cost Control 263,250 Accounts Receivable 810,000 Sales Revenue 810,000 Conversion Cost Control 20,250 Cost of Goods Sold 20,250 Exercise 11.18 1. Fabrication Assembly Allocation ratio* 0.25 0.75 Maintenance: 0.25 $480,000 $ 120,000 0.75 $480,000 $ 360,000 Direct overhead costs 720,000 204,000 Total $ 840,000 $ 564,000 *Allocation based on number of tests. Overhead rate (based on direct labor hours for each department): Fabrication: $840,000/72,000 = $11.67* per direct labor hour Assembly: $564,000/36,000 = $15.67* per direct labor hour Unit cost: Basic: ($11.67 0.5) + ($15.67 0.7) = $16.80* Advanced: ($11.67 1.0) + ($15.67 1.25) = $31.26* *Rounded to the nearest cent. Exercise 11.18 (Concluded) 2. Basic: $228,000/45,000 = $5.07* per unit Advanced: $720,000/24,000 = $30 per unit The JIT cost is more accurate because it has more costs that can be assigned using direct tracing. *Rounded to the nearest cent. 3. JIT manufacturing should result in more efficient production, and thus, costs would be reduced. For example, the multidisciplinary nature of cells would virtually eliminate the Inspection Department, producing significant savings. Other savings such as elimination of most materials handling cost due to the cell structure would also be realized. CPA-TYPE EXERCISES Exercise 11.19 b. As with products, whenever there is customer diversity, activities will not be consumed homogeneously. Multiple drivers will provide better cost assignments and a better understanding of what customers are costing, which can improve the customer mix and profitability. Exercise 11.20 b. A low-price supplier is not necessarily the low-cost supplier. Suppliers can provide low-quality products that affect or cause other internal activities such as inspecting, testing, rework, expediting, customer complaint resolution, warranty work, etc. Understanding this, companies will often select only those suppliers that can deliver a quality product on time. Exercise 11.21 c. The key is selecting a driver that is the best measure of consumption. Order processing costs will be affected by the number of orders and is the most logical choice. Pounds, revenues, and customer type all fail to capture the order frequency and thus would not be good drivers for assigning order-filling costs. Exercise 11.22 a. The cost per defective component is $20 ($3,000,000/150,000). Thus, the cost of each supplier increases because of the defective components: $2,700,000 for Day and $300,000 for Larsen (making a the correct answer). Larsen has the lowest increase of cost because it has fewer defective units and appears to be of higher not lower quality. Exercise 11.23 d. The second stage assigns activity costs to cost objects. Since customers are the cost object, the only correct answer is d. problems Problem 11.24 1. Cost per labor hour = ($5,000,000 + $7,500,000*)/250,000 = $50 per hour *($30 250,000 DLH = $7,500,000) Cost per unit of average product = $50 1.25 = $62.50 2. Cost per hour = ($6,600,000 + $6,000,000*)/200,000 = $63.00 per hour *($30 200,000 DLH = $6,000,000) Cost per unit of average product = $63 1 = $63 3. The design changes increased non-unit-based overhead activities, while decreasing unit-based costs. This is suggested by the fact that engineering change orders triggered a number of overhead-related activities such as changes in setup, inspection, and purchasing activities. Thus, so-called fixed overhead increased by $1,600,000. Reduction in labor content may have come at the expense of increasing the demand for non-unit-related activities. This is supported by the analysis of the effects of the design changes on setups and purchasing: Setups: Change in demand for setups = (40,000 20,000)/2,000 = 10 steps Change in resource spending = 10 steps $90,000 = $900,000 Receiving: Change in demand for purchasing = 250 100 = 150 component types Change in steps demanded = 150/20 = 7.5, thus requiring 8 steps (partial steps cannot be acquired) Change in variable activity cost = 150 $2,000 = $300,000 Change in step-fixed cost = 8 $50,000 = $400,000 Total change = $300,000 + $400,000 = $700,000 The engineers did not have a correct view of the existing internal linkages. To exploit internal linkages, it is imperative that internal value-chain activities be identified with their associated cost drivers. Problem 11.24 (Concluded) 4. The cost of producing decreases by $250,000 for the rejected design: Unit-level activities: Unit-level cost change = (260,000 250,000) $30 = 10,000 $30 = $300,000 Setups: Setup cost change = (10,000 20,000)/2,000 = 5-step reduction $90,000 = $(450,000) savings Receiving: Purchasing demand change = (75 100) = (25) Decrease in steps = 25/20 = 1 (rounded down to nearest whole unit) Decrease in variable activity cost = $2,000 (25) = $(50,000) Decrease in step-fixed cost = $50,000 (1) = $(50,000) Total change = $300,000 $450,000 $50,000 $50,000 = $(250,000) The rejected design actually produces a $250,000 savings relative to the current design. Relative to the accepted new design, the savings is $1,600,000 more! This emphasizes the importance of having the facts correct when making strategic changes. ABC links output with activities and activities with costs. Thus, any change in product design with an impact on activities could be associated with cost changes. By describing cost behavior better and establishing the indicated linkages, ABC can help a manager identify the best cost reduction strategies. Problem 11.25 1. Supplier cost: First, calculate the activity rates for assigning costs to suppliers: Testing engines: $264,000/1,100 = $240 per engine Reworking products: $440,000/5,500 = $80 per rework hour Expediting orders: $330,000/110 = $3,000 per late shipment Repairing engines: $594,000/1,375 = $432 per engine Next, calculate the cost per engine by supplier: Supplier cost: Villa Verity Purchase cost: $297 10,800 $ 3,207,600 $330 2,400 $792,000 Testing engines: $240 1,089 261,360 $240 11 2,640 Reworking products: $80 5,390 431,200 $80 110 8,800 Expediting orders: $3,000 108 324,000 $3,000 2 6,000 Repairing engines: $432 1,342 579,744 $432 33 14,256 Total supplier cost $4,803, 904 $823,696 Units supplied 10,800 2,400 Unit cost $ 444.81* $ 343.21* *Rounded to the nearest cent. The Verity engine costs less when the full supplier effects are considered. This is a better assessment of cost because it considers the costs that are caused by the supplier due to poor quality, poor reliability, and poor delivery performance. 2. Given that Cortalo needs both suppliers, it seems sensible to first shift more business to the true low-cost supplier and then take actions to help improve behavior of Villa engines. Cortalo could share the ABC analysis with Villa and show how the poor quality and delivery performance are affecting the costs of Cortalo. Cortalo may offer to share expertise so that Villa can improve its performance. ABC helps in strategic analysis by tracing costs to their sourceseven if those sources are outside the factory walls. It reveals opportunities for reducing costs and improving relations with external parties (suppliers in this case). Problem 11.26 1. Following GAAP is fine for external financial reporting; however, for internal reporting it may not be a good practice. By expensing order-filling costs, management has no indication of the profitability of various customer groups because there is no cost assigned to customers. Knowing the sources of profitability can affect customer mix and product mix decisions. It can also have a significant effect on deciding which customer segments to serve (focusing strategy). 2. The total product consists of all benefitsboth tangible and intangiblethat a customer receives. One of the benefits is the order-filling service provided by Moss. Thus, it can be argued that these costs should be product costs, and not assigning them to products undercosts all products. There are more small orders than large (70,000 orders average 600 units), and these small orders consume more of the order-filling resources. They should, therefore, receive more of the order-filling costs. Furthermore, since segmenting products is equivalent to segmenting customers, we obtain insight as to how much it is costing to service different customer categories. The average order-filling cost per unit produced is: $6,300,000/126,000,000 units = $0.05/unit Note: Each product has 42 million units (e.g., 600 70,000 for A); thus, there are 126,000,000 units in total. Order-filling costs are about 6%10% of the selling priceclearly not a trivial amount. The per-unit cost for individual product families can be computed using the number of orders as the activity driver: Activity rate = $6,300,000/140,000 orders = $45 per order The per-unit ordering cost for each product family is: Family A: $45/600 = $0.075 per unit Family B: $45/1,000 = $0.045 per unit Family C: $45/1,500 = $0.030 per unit Family A, with the smallest batches, is the most undercosted of the three families. Furthermore, the unit ordering cost is quite high relative to Family As selling price (9%15% of the selling price). This suggests that something should be done to reduce the order-filling costs. Problem 11.26 (Concluded) 3. With the pricing incentive feature, the average order size has been increased to 2,000 units for all three product families. The number of orders now pro-cessed can be calculated as follows: Orders = [(600 70,000) + (1,000 42,000) + (1,500 28,000)]/2,000 = 63,000 Reduction in orders = 140,000 63,000 = 77,000 Steps to be reduced = 77,000/2,000 = 38 (rounding down to nearest whole number) There were initially 70 steps: 140,000/2,000 Reduction in resource spending: Step-fixed costs ($70,000 38) $ 2,660,000 Variable activity costs ($28 77,000) 2,156,000 $ 4,816,000 Customers placed smaller, more frequent orders than necessary. They received a benefit without being charged for it. By charging for the benefit and allowing customers to decide whether it was worth the cost, Moss was able to reduce its costs (potentially by shifting the cost of the service to the customers). The customers, however, apparently did not feel that the benefit was worth paying for and so increased their order size. Fewer, larger orders meant that the demand for the order-filling activity decreased, as did its cost. Other benefits may also be realized. The order size affects such activities as scheduling, setups, and materials handling. Larger orders should also decrease the demand for these activities and explain why the costs for these activities were also reduced. 4. If Moss is to be a JIT supplier, then it should enjoy some of the benefits. One possibility is to seek help from the buyer so that Moss can become more of a lean manufacturer. Another possibility is to seek long-term contracts to reduce some of the ordering costs so that smaller orders can be supplied. As part of this, Moss might seek direct data entry to the buyers database. By accessing the buyers production schedule, Moss can deliver the needed parts where they are needed just in time. This also reduces Mosss uncertainty and facilitates its own scheduling, lowering costs. 5. Competitive advantage is created by providing the same customer value for less cost or better value for the same or less cost. By reducing the cost, Moss can increase customer value by providing a lower price (decreasing customer sacrifice) or by providing some extra product features without increasing the price (increasing customer realization). This is made possible by the decreased cost of producing and selling the bolts. Problem 11.27 1. Savings: Purchasing [($30 1,500 part types) + ($45,000 15 clerks)] $ 720,000 Inspecting ($40,000 12 inspectors) 480,000 Reworking ($25 37,500 units reworked) 937,500 Warranty [($35,000 13 agents) + ($15 5,500 units)] 537,500 Total savings $ 2,675,000 2. The redesign reduces the number of different parts by creating products that use interchangeable parts. This reduces the demand for purchasing activity and, at the same time, makes it easier to implement quality-related improvements. Supplier evaluation identifies suppliers that are willing and able to provide defect-free parts. As the number of defect-free parts increases, the demand for inspection, rework, and warranty activities diminishes. This example illustrates the importance of both internal and external linkages by connecting the internal activity, redesign, to such activities as purchasing, inspection, rework, and warranty. 3. The operational activities include designing, evaluating suppliers, inspecting, purchasing, rework, and warranty. Related organizational activities include complexity, providing quality, and designing and producing quality. Organizational activities tend to determine the day-to-day activities performed by an organization. Day-to-day activities, on the other hand, can suggest or point out organizational activities that need improvement. In this example, complexity was minimized by reducing the number of different parts. The approach to quality was changed to emphasize total quality (defect-free), and engineering design was used to reduce complexity. Thus, we can say there is a circular relationship between organizational and operational activities. Problem 11.28 1. Pawnee Works is losing money because it is unaware of the activities generated by each customer. The large customer places small, specialized orders, requiring high-precision machined parts. The frequent orders and specialized nature of the parts increase activities and activity-caused costs. The plantwide rate spreads these costs over all customers, so that the smaller customers are subsidizing the large one. As the cost of the smaller jobs increases, these customers will search for alternative sources. Also, it is likely that the increased number of jobs from the large customer has affected the ability of Pawnee Works to produce the parts for its smaller regular customers on a timely basis. If management was aware of the activities, its costs, and its linkage to jobs and customers, then it could have priced the jobs differently (e.g., charging a fee for order processing to encourage larger orders). Also, knowledge of activities, their costs, and linkages to output and customers may have led management to emphasize smaller customers instead of the large one. An activity-based costing system would provide the activity and cost information that would allow managers to see the relationships between external and internal activities. 2. Traditional pricing: Small Customer Large Customer Prime costs $ 14,000 $ 1,600 Overhead: $14.30 2,000 28,600 $14.30 200 2,860 Total cost $ 42,600 $ 4,460 Units produced 1,000 100 Unit cost $ 42.60 $ 44.60 Markup (Unit cost 0.25) 10.65 11.15 Current prices $ 53.25 $ 55.75 3. Pool rates: Setups: $209,000/1,045 hours = $200 per setup hour Engineering: $151,200/630 hours = $240 per engineering hour NC programming: $130,400/815 hours = $160 per programming hour Machining: $100,000/50,000 hours = $2 per machine hour Rework: $101,400/1,300 defective units = $78 per unit Inspecting: $23,000/230 hours = $100 per inspection hour Note: The activity capacities are computed by multiplying the average job usage by the number of jobs. Problem 11.28 (Continued) Setups: (3 15) + (10 100) 1,045 Engineering: (2 15) + (6 100) 630 NC programming: (1 15) + (8 100) 815 Machining: (2,000 15) + (200 100) 50,000 Rework: (20 15) + (10 100) 1,300 Inspecting: (2 15) + (2 100) 230 Small Customer Large Customer Prime costs $ 14,000 $ 1,600 Overhead: Setups: $200 3 600 $200 10 2,000 Engineering: $240 2 480 $240 6 1,440 NC programming: $160 1 160 $160 8 1,280 Machining: $2 2,000 4,000 $2 200 400 Rework: $78 20 1,560 $78 10 780 Inspecting: $100 2 200 $100 2 200 Total cost $ 21,000 $ 7,700 Units produced 1,000 100 Unit cost $ 21.00 $ 77.00 Markup (Unit cost 0.25) 5.25 19.25 ABC prices $ 26.25 $ 96.25 Problem 11.28 (Continued) If the sales support is traced to individual products, Pawnee will discover that the major share of this cost is being caused by the large customer. The activity driver is the number of orders, yielding the following rate: Sales support rate: $80,000/115 orders = $695.65* per order *Rounded to the nearest cent. Assignment to customers: Small: $695.65 15 = $10,435* Large: $695.65 100 = $69,565 *Rounded to the nearest cent. This simply reinforces the observation that the unit cost for the large customer is greater than the selling price. For the 10,000 units purchased by the large customer, this would add about $6.96 of cost to each unit. This brings the unit product cost to $83.96. 4. Current profit: Sales [($53.25 15,000) + ($55.75 10,000)] $1,356,250 COGS [($42.60 15,000) + ($44.60 10,000)] 1,085,000 Gross profit $ 271,250 Less: Selling expenses 80,000 Income before taxes $ 191,250 To compute profit associated with a small customer strategy, we must first compute the unit product cost and price (which stays the same as the following computation illustrates): Problem 11.28 (Continued) Small Customer Prime costs $ 14,000 Overhead: Setups: $200 3 600 Engineering: $240 2a 480 NC programming: $160 1 160 Machining: $2 2,000 4,000 Rework: $78 20 1,560 Inspecting: $100 2b 200 Total cost $ 21,000 Units produced 1,000 Unit cost $ 21.00 Markup (Unit cost 0.25) 5.25 Price $ 26.25 aThe revised demand for the engineering activity requires only one step (currently there are six stepshere each step is 105 hours). The cost of one step is $151,200/6 = $25,200. The activity rate is Activity cost/Activity capacity = $25,200/105 = $240 per hour. The cost of unused activity capacity is not assigned to products. It should be reported as a separate item in the financial statements. bRevised demand requires one step. The activity rate is $23,000/230 = $100 per hour. Problem 11.28 (Concluded) Income statement, small customer strategy: Sales ($26.25 25,000) $ 656,250 Less: COGS ($21 25,000) 525,000 Gross profit $ 131,250 Cost of unused activity capacity: Engineering ($240 55*) (13,200) Inspecting ($100 180**) (18,000) Adjusted gross profit $ 100,050 Sales support 32,000 Income before taxes $ 68,050 Note: Sales support requires two steps (each steps size is 23 orders), costing $16,000 each, for a total of $32,000. *55 = (6 100) (5 105) (2 10) **180 = (2 100) (2 10) 5. Pawnee Works operates in a small segment of the industrial value chain. Furthermore, it has very little seller powerespecially relative to the Fortune 500 company. The president expressed concern about raising prices because he was afraid that he would lose the large customers businessbut even so, the company cannot afford to continue selling at the same price. It is only a matter of time until the remaining smaller customers abandon the firm. The profit advantage revealed in Requirement 4 is illusory. It is about to evaporate because the smaller customers will not continue to subsidize the large customer. The advantage of Pawnee apparently lies with the small- to medium-sized firms that like Pawnees work and the convenience of its location. Even if the large firm agrees to a price increase, it seems risky to place so many eggs in one basket (40 percent of the business attributable to one customer). Suppose that two years from now, the large firm simply dumps Pawnee. By this time, it may be difficult to rebuild the customer relations that would be needed to continue as a viable business. Pawnee would be well advised to reestablish its relationships with the smaller firms while it is still possible to do so. Problem 11.29 1. Target cost = Target price Target profit = $130 $15 = $115 per unit The projected cost is $122 [$120 + ($100,000/50,000 units)], so the target is not met. The projected total life-cycle profit is ($130 $122) 50,000 = $400,000. 2. a. New target cost = $125 $15 = $110 per unit b. The current projected cost is $115.43* [$120 + ($100,000/70,000) $6]. Thus, cost reductions of $5.43 per unit still must be achieved. c. Total life-cycle profits = ($125 $115.43) 70,000 = $669,900 d. Three general approaches are used to reduce costs in the design stage: (1) reverse engineering, to see if some efficiencies can be learned from competitors; (2) value analysis, to see if the functional design can be improved; and (3) process improvement, to see if a more efficient process design can be realized. Of the three, the most promising are the last two (this is a new productnot a redesign of an existing product). *Rounded to the nearest cent. 3. Projected life-cycle profits, new designs: Design A: Sales ($125 70,000) $ 8,750,000 Less life-cycle costs: Production and logistics ($106 70,000) (7,420,000) Preproduction activities* (250,000) Life-cycle income $ 1,080,000 Units 70,000 Profit per unit $ 15.43** Total profits = $15.43 70,000 = $1,080,100 *Includes the $100,000 spent on the first design effort. **Rounded to the nearest cent. Problem 11.29 (Concluded) Design B: Sales ($125 100,000)a $ 12,500,000 Less life-cycle costs: Production and logistics ($106 100,000) (10,600,000) Preproduction activitiesb (400,000) Life-cycle income $ 1,500,000 Units 100,000 Profit per unit $ 15.00 Total profits = $15.00 100,000 = $1,500,000 aPost-purchase costs are less than $5 per unit which means the market share will be 50 percent. b$100,000 + $300,000. Design B should be chosen. It meets the target profit and provides the greatest life-cycle income. If Design B costs an additional $500,000 instead of an additional $300,000, then it would have produced a life-cycle income of $1,300,000still more than the Design A income of $730,100. This illustrates that we need to be cautious about using per-unit targetsparticularly when the life cycle is short. 4. Benefit/cost analysis: Life-cycle profits, Design B $ 1,500,000 Life-cycle profits, initial design 400,000* Increase in profits $ 1,100,000 Additional development cost 300,000 Increase in benefits $ 800,000 *See Requirement 1. Thus, $2.67* ($800,000/$300,000) of benefits will be realized for every additional $1 spent on preproduction activities. Exploiting the linkages between preproduction activities and other activities occurring in the later stages of the production and consumer life-cycle stages can add significantly to the long-run profitability of a firm. *Rounded to the nearest cent. Problem 11.30 1. Controllers formula: (original plus reduction for Design Z): Total cost (original) = $200,000 + $10(25,000) = $450,000 Total cost (Design Z adjustment) = $200,000 + $8(25,000) = $400,000 Unit cost = $400,000/25,000 = $16 Unit gross profit = $20 $16 = $4 = Targeted unit profit (using the original formula, adjusted for Design Z) Engineers formula: Total cost = $140,000 + $8(25,000) + $5,000(25) + $2,000(20) = $505,000 Unit cost = $505,000/25,000 = $20.20 Unit gross profit (loss) = $20 $20.20 = $(0.20) Design Z not only fails to meet the target profit, but it also produces a loss. The design was created using machining as the only activity of consequence. It ignored the effect on other activities such as setups and engineering support. Good life-cycle cost management must consider all activities and their linkagesotherwise, costly mistakes can be made as this example illustrates. This is particularly true for products with short life cycles. 2. Design W per-unit gross profit: Total cost = $100,000 + $8(30,000) + $3,000(30) + $2,000(10) = $450,000 Unit cost = $450,000/30,000 = $15 Unit gross profit = $20 $15 = $5 ($1 greater than the $4 target) Note: The increase of market share from 50 percent to 60 percent increased sales from 25,000 units to 30,000 units. Thus, the number of batches would increase from 25 to 30 (each batch has 1,000 units). Problem 11.30 (Concluded) 3. The dollar benefit can be estimated assuming that there was no reduction in post-purchase costs and calculating the gross profit based on 25,000 units sold and then comparing this figure with the 30,000 units sold because of the expanded market share (attributable to reducing post-purchase costs). Profit based on 25,000 units: Total costs = $100,000 + $8(25,000) + $3,000(25) + $2,000(10) = $395,000 Unit cost = $395,000/25,000 = $15.80 Unit gross profit = $20.00 $15.80 = $4.20 Benefit (per unit) = $5.00 $4.20 = $0.80 Total benefit = $5(30,000) $4.20(25,000) = $45,000 (over the life of the product) There are three ways to reduce costs by designing to exploit activity linkages. One is to design in order to reduce production costs. A second is designing to reduce logistical support costs. The third is designing to reduce post-purchase costs. Although this was not a specific objective, it should be included as part of the design considerations. Similarly, design considerations should also include logistical support activities and their costs. Hopefully, designs can be created that simultaneously reduce production, logistical, and post-purchase costs. Problem 11.31 1. Before JIT unit cost: $489,300/10,000 = $48.93 After JIT unit cost: $325,400/10,000 = $32.54 2. JIT produces a more accurate unit cost because there are more costs that are directly attributable to the product. Under JIT, costs may decrease because of the following reasons: (1) Costs are more easily traced to the product. Examples: The assignment of an engineer to the cell makes engineering cost directly attributable to the cell; depreciation is also directly attributable now, and this may explain its lower cost assignment. (2) Total quality management. The emphasis on improving quality should reduce certain costs. Examples: Direct materials and rework. (3) The use of multiskilled labor also may reduce costs. Examples: Cell workers now perform inspections, move materials, do janitorial work, and perform maintenance. (4) The use of cellular manufacturing. Examples: No setup costs because the cell is dedicated to one product. Less materials handling because the distance between operations has been dramatically reduced and because suppliers may now deliver raw materials to the cell area. Problem 11.31 (Concluded) 3. The switch was made because the costs can be accumulated by cell and unit costs computed by dividing cell costs by output. In other words, reorganizing the plant layout created a structure that fits process costing. 4. Cost Assignment Method Direct materials Direct tracing Direct labor Direct tracing Maintenance Direct tracing Inspection Direct tracing Rework Direct tracing Power Driver tracing (unless metered) Depreciation Direct tracing Materials handling Direct tracing Engineering Direct tracing Setups N/A Janitorial Allocation Building and grounds Allocation Supplies Direct tracing Supervision (plant) Allocation Cell supervision Direct tracing Cost accounting Driver tracing Departmental supervision N/A Direct attribution or tracing is the most common method, reflecting the focusing effect of cells. This produces more accurate product costs because costs that are directly attributable to a cell also belong to the product the cell is producing. Problem 11.32 1. Allocation ratios: Machining Assembly Square feet 2/3 1/3 Material moves 3/5 2/5 Machine hours 4/5 1/5 Allocation: Direct overhead costs $ 280,000 $ 175,000 Maintenance: 4/5 $110,000 88,000 1/5 $110,000 22,000 Materials handling: 3/5 $90,000 54,000 2/5 $90,000 36,000 Building and grounds: 2/3 $150,000 100,000 1/3 $150,000 50,000 Total $ 522,000 $ 283,000 Departmental rates: Machining: $522,000/80,000 machine hours = $6.53* per machine hour Assembly: $283,000/20,000 direct labor hours = $14.15 per direct labor hour Overhead assignment: Eaters: ($6.53 1) + ($14.15 0.25) = $10.07* Edgers: ($6.53 2) + ($14.15 0.50) = $20.14* *Rounded to the nearest cent. Unit cost computation: Eaters Edgers Direct materials $ 12.00 $ 45.00 Direct labor 4.00 30.00 Overhead 10.07 20.14 Total $ 26.07 $ 95.14 Problem 11.32 (Concluded) 2. Unit cost under JIT: Eaters: $425,000/20,000 = $21.25 Edgers: $2,225,500/30,000 = $74.18* *Rounded to the nearest cent. 3. JIT costs are more accurate because of the following reasons: a. All costs except building and grounds are directly attributable to each product. b. It can be argued that building and grounds costs are assigned using an activity-based approach. The assignment is activity-based because costs are traced to activity (space occupied) and then to products based on the activity consumed (space occupied). Since cells are dedicated to the production of a single product, whatever causal factor is used to allocate service costs to the cell is the same causal factor used to allocate the costs to the product. A functional-based costing system first assigns costs to departments and then products using only unit-based drivers. Yet, maintenance and materials handling are not unit-based activities. 4. JIT overhead costs: $599,500 ($99,000 + $75,000 + $350,500 + $75,000) Pre-JIT overhead costs: $805,000 Decrease: $ 805,000 599,500 $ 205,500 Overhead costs decreased by $205,500. This decrease can be explained by such factors as the use of interdisciplinary labor, total quality control, decentralization of services, and the physical organization of the manufacturing cell. In particular, materials handling and maintenance functions are now performed by cell workers, and the physical layout is such that there is considerably less materials movement. Problem 11.33 1. $1,350,000/45,000 = $30.00 per hour $648,000/27,000 = $24.00 per hour 2. Raw Materials and In Process Inventory 1,530,000 Accounts Payable 1,530,000 Conversion Cost Control 2,160,000 Accounts Payable 1,890,000 Wages Payable 270,000 Finished Goods Inventory 3,285,000 Raw Materials and In Process Inventory 1,530,000 Conversion Cost Control 1,755,000* Cost of Goods Sold 3,285,000 Finished Goods Inventory 3,285,000 Cost of Goods Sold 405,000 Conversion Cost Control 405,000 *(81,000 0.5 $30) + (90,000 0.25 $24) 3. Raw Materials and In Process Inventory 1,530,000 Accounts Payable 1,530,000 Conversion Cost Control 2,160,000 Accounts Payable 1,890,000 Wages Payable 270,000 Cost of Goods Sold 3,285,000 Raw Materials and In Process Inventory 1,530,000 Conversion Cost Control 1,755,000 Cost of Goods Sold 405,000 Conversion Cost Control 405,000 Problem 11.33 (Concluded) 4. Under JIT, there are no departments, and the lead time is very short so that it becomes unnecessary to track work in process. It would be impractical to track work in process from station to station in a manufacturing cell. 5. If the only trigger point is when goods are sold, then the entries would be as follows: Conversion Cost Control 2,160,000 Accounts Payable 1,890,000 Wages Payable 270,000 Cost of Goods Sold 3,285,000 Accounts Payable 1,530,000 Conversion Cost Control 1,755,000 Cost of Goods Sold 405,000 Conversion Cost Control 405,000 This backflush variant would operate only in a pure JIT setting. Cycle time is minutes or hours, goods are shipped immediately upon completion, and we can then argue that the manufacturing costs of the day ought to flow directly into the cost of goods sold account. Problem 11.34 1. The manufacturing cell should be organized with a cutter, laser, wrapping machine, welder, and testing equipment so that one heater can be produced from start to finish in the cell. In addition to physically grouping all of the equipment needed for production, workers are trained to operate and maintain each piece of cell equipment. They may do minor repairs, move partially finished goods from one station to the next, and clean up. This differs from the current arrangement in that all these functions are separately assigned to specialized departments. Typically, a batch of units (e.g., 300 metal pipes) will be processed before being passed on to the next department. These batches are transported from one location to the next by materials handlers. The cell organization would eliminate the movement from one department to another. There would be training costs associated with the transition to JIT because the workers would have to be trained to perform a variety of tasks as opposed to the specialized labor orientation now used. Problem 11.34 (Continued) 2. In a cell structure, as soon as a unit is completed, it is passed on to the next process. Thus, for the first unit, laser must wait 10 minutes, welding must wait 20 minutes, and testing must wait 30 minutes. After the first unit, there is no waiting time for the subsequent process. Production occurs simultaneously for all four processes. Thus, one unit is produced every 10 minutes (1/6 hour). The production time for a batch of 300 is now 50 hours (1/6 300) plus the initial 30 minutes waiting time. Lead time for the 300 units has been cut by nearly 75%. Reducing lead time increases responsiveness and should produce a reduction in costsparticularly inventory-related costs. Lower costs and faster response time should improve Reddys competitive position. 3. Structural activities: Grouping employees and selecting process technology. Procedural activities: Using employees, providing quality, and providing plant layout. Operational activities: Materials movement, using labor, inspecting batches. The driver for grouping employees is the number and type of work units. The work unit selected is the cell and this usually reduces the number of employees. The driver for process technology is JITthe type of process technology employed here that dictates the selection of the cellular structure. The driver for using employees is degree of involvementa high level of involvement is mandated for JIT to be successful. Total quality management also must be chosen and drives the cost of providing quality. Layout efficiency drives the cost of plant layout. For the operational activities, distance moved is probably the fundamental cost driver that was altered to drive down the cost of materials handling. By grouping into cells, the distance moved is so small as to eliminate materials handling as a significant activity. Using labor is driven by labor hourswhich have been reduced to drive down costs of labor usagereduced because laborers are involved in multiple tasks and because some of the tasks have been eliminated or reduced. The driver for inspection is inspection hours, which with a total quality emphasis should be reduced significantly. 4. Initially, the workers felt threatened by the changes, as their sense of comfort and routine altered. Further, some were irritated by the need for retraining. However, once the training was completed and the cell workers gained experience, they felt a greater sense of satisfaction from the more challenging and varied tasks. The change to JIT increased employee morale by lessening the boredom caused by doing only one specialized task all the time. The workers could see the product from start to finish and so could see the result of their efforts. Moreover, they played a greater role in determining how production ought to occur. Their sense of self-worth increased because they had developed greater skills and were a more vital part of the whole process. Problem 11.34 (Concluded) 5. JIT tends to produce higher-quality products, shorter lead times, and lower, more accurate production costs. These factors explain the ability to increase demand. JIT adopts a philosophy of total quality control, striving for zero defects. This requires working closely with suppliers to ensure that the materials of the necessary quality are delivered at the necessary time. It also means more worker involvement in producing a quality product. JIT encourages workers to find ways of improving qualityto even stop production when necessary to determine why a problem exists and how to correct it. Lead time is reduced because of the reorganization of the manufacturing layout. Costs are usually reduced by JIT because of reorganization. For example, there is no longer a need to have materials handlers. This cost is reduced significantly. Other costs such as that of running a central store are also reduced or eliminated. As the per-unit cost drops, it allows the company to decrease the selling price while increasing or maintaining the units profit margin. 6. JIT can mean that more manufacturing costs are traceable to individual products, increasing product costing accuracy. For example, the cutting machinery was formerly in a department where it was used by several different products, requiring machinery cost allocation. With cells, the cost of the cutting machinery within the cell all belongs entirely to the small heaters. 7. JIT enhances the power of management accounting models by increasing the accuracy of the inputs to those models. For example, by increasing trace-ability, it is possible to make better decisions about making or buying a component or accepting or rejecting a special order. JIT also simplifies the accounting process, making it easier to understand and use accounting information. For example, eliminating the need for equivalent units makes it easier to compute and use product costs in a process-costing environment. cyber research case 11.35 Answers will vary.  The following problems can be assigned within CengageNOW and are auto-graded. See the last page of each chapter for descriptions of these new assignments. Integrative ProblemActivity Based Costing, Strategic Cost Management, Activity Based Management (Covers chapters 4, 11 and 12) Integrative ProblemBalanced Scorecard, Quality and Environment Costing, Strategic Cost Management (Covers chapters 11, 13, and 14) Blueprint ProblemBasic Concepts, Exploiting Internal Linkages Activity-Based Customer Costing, Activity-Based Supplier Costing Blueprint ProblemLife Cycle and Target Costing Blueprint ProblemBackflush Costing      PAGE  11- PAGE 1 2015 Cengage Learning. All Rights Reserved. May not be scanned, copied or duplicated, or posted to a publicly accessible website, in whole or in part. 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