SCMA 331 CHAPTER 7S

Ace your homework & exams now with Quizwiz!

B

Capacity decisions are based on technological concerns, not demand forecasts. A. TRUE B. FALSE

A

Changes in capacity may lead, lag, or straddle the demand. A. TRUE B. FALSE

C

Christopher's Cranks uses a machine that can produce 100 cranks per hour. The firm operates 12 hours per day, five days per week. Due to regularly scheduled preventive maintenance, the firm expects the machine to be running during approximately 95% of the available time. Based on experience with other products, the firm expects to achieve an efficiency level for the cranks of 85%. What is the expected weekly output of cranks for this company? A) 5100 B) 5700 C) 4845 D) 969 E) 6783

B

Consider a production line with five stations. Station 1 can produce a unit in 9 minutes. Station 2 can produce a unit in 10 minutes. Station 3 has two identical machines, each of which can process a unit in 12 minutes (each unit only needs to be processed on one of the two machines. Station 4 can produce a unit in 5 minutes. Station 5 can produce a unit in 8 minutes. Which station is the bottleneck station? A) Station 1 B) Station 2 C) Station 3 D) Station 4 E) Station 5

A

Design capacity is the theoretical maximum output of a system in a given period under ideal conditions. A. TRUE B. FALSE

B

Effective capacity is the: A) maximum output of a system in a given period. B) capacity a firm expects to achieve given the current operating constraints. C) average output that can be achieved under ideal conditions. D) minimum usable capacity of a particular facility. E) sum of all of the organization's inputs.

B

Effective capacity is typically larger than design capacity. A. TRUE B. FALSE

D

Effective capacity × Efficiency equals: A) efficient capacity. B) utilization. C) actual capacity. D) expected output. E) design capacity.

D

Fabricators, Inc. wants to increase capacity by adding a new machine. The fixed costs for machine A are $90,000, and its variable cost is $15 per unit. The revenue is $21 per unit. What is the break-even point for machine A? A) $90,000 dollars B) 90,000 units C) $15,000 dollars D) 15,000 units E) 4,286 units

A

Fixed costs are those costs that continue even if no units are produced. A. TRUE B. FALSE

A

In "drum, buffer, rope," what provides the schedule, i.e. the pace of production? A) drum B) buffer C) rope D) all three of the above in combination E) none of the above

C

Lag and straddle strategies for increasing capacity have what main advantage over a leading strategy? A) They are cheaper. B) They are more accurate. C) They delay capital expenditure. D) They increase demand. E) All of the above are advantages.

D

Net present value will be greater: A) as a fixed set of cash receipts occurs later rather than earlier. B) if the future value of a cash flow is smaller. C) for one end-of-year receipt of $1200 than for twelve monthly receipts of $100 each. D) for a 4% discount rate than for a 6% discount rate. E) All of the above are true.

E

Net present value: A) is gross domestic product less depreciation. B) is sales volume less sales and excise taxes. C) is profit after taxes. D) ignores the time value of money. E) is the discounted value of a series of future cash receipts.

E

Of the four approaches to capacity expansion, the approach that "straddles" demand: A) uses incremental expansion. B) uses one-step expansion. C) at some times leads demand, and at other times lags. D) works best when demand is not growing but is stable. E) Choices A and C are both correct.

A

One limitation of the net present value approach to investments is that investments with identical net present values may have very different cash flows. A. TRUE B. FALSE

B

Possible decision alternatives found in capacity EMV problems are future demands or market favorability. A. TRUE B. FALSE

A

Price changes are useful for matching the level of demand to the capacity of a facility. A. TRUE B. FALSE

B

Substantial research has proved that the only successful method of dealing with bottlenecks is to increase the bottleneck's capacity. A. TRUE B. FALSE

D

The Academic Computing Center has five trainers available in its computer labs to provide training sessions to students. Assume that the design capacity of the system is 1900 students per semester and that effective capacity equals 90% of design capacity. If the number of students who actually got their orientation session is 1500, what is the efficiency of the system? A) 1350 students B) 1710 students C) 78.9% D) 87.7% E) 90%

D

The Theory of Constraints (TOC) strives to reduce the effect of constraints by: A) offloading work from constrained workstations. B) increasing constrained workstation capability. C) changing workstation order to reduce throughput time. D) A and B E) A, B, and C

A

The Theory of Constraints (TOC) was popularized by: A) Goldratt and Cox. B) Ford. C) Taguchi. D) Deming. E) Motorola and GE.

B

The basic break-even model can be modified to handle more than one product. This extension of the basic model requires: A) price and sales volume for each product. B) price and variable cost for each product, and the percent of sales that each product represents. C) that the firm have very low fixed costs. D) that the ratio of variable cost to price be the same for all products. E) sales volume for each product.

B

The bottleneck time is always at least as long as the throughput time. A. TRUE B. FALSE

B

The net present value of $10,000 to be received in exactly three years is considerably greater than $10,000. A. TRUE B. FALSE

B

The staff training center at a large regional hospital provides training sessions in CPR to all employees. Assume that the capacity of this training system was designed to be 1200 employees per year. Since the training center was first put into use, the program has become more complex, so that 1050 now represents the most employees that can be trained per year. In the past year, 950 employees were trained. The efficiency of this system is approximately ________ and its utilization is approximately ________. A) 79.2 percent; 90.5 percent B) 90.5 percent; 79.2 percent C) 87.5 percent; 950 employees D) 950 employees; 1050 employees E) 110.5 percent; 114.3 percent

E

The theory of constraints has its origins in: A) linear programming theory. B) the theory of economies of scale. C) material requirements planning. D) the theory of finite capacity planning. E) Goldratt and Cox's book, The Goal: A Process of Ongoing Improvement.

A

The theory of constraints is a body of knowledge that deals with anything that limits an organization's ability to achieve its goals. A. TRUE B. FALSE

B

To find the throughput time with simultaneous processes, compute the time over all paths and choose the shortest path through the system. A. TRUE B. FALSE

B

Utilization is the number of units a facility can hold, receive, store, or produce in a period of time. A. TRUE B. FALSE

A

Utilization will always be lower than efficiency because: A) effective capacity is less than design capacity. B) effective capacity is greater than design capacity. C) effective capacity equals design capacity. D) expected output is less than actual output. E) expected output is less than rated capacity.

E

What is a common method used to increase capacity with a lag strategy? A) overtime B) subcontracting C) new facilities D) new machinery E) A and B

D

Which of the following costs would be incurred even if no units were produced? A) raw material costs B) direct labor costs C) transportation costs D) building rental costs E) purchasing costs

D

Which of the following is FALSE regarding capacity expansion? A) "Average" capacity sometimes leads demand, sometimes lags it. B) If "lagging" capacity is chosen, excess demand can be met with overtime or subcontracting. C) Total cost comparisons are a rather direct method of comparing capacity alternatives. D) Capacity may only be added in large chunks. E) In manufacturing, excess capacity can be used to do more setups, shorten production runs, and drive down inventory costs.

E

Which of the following is not one of the four principles of bottleneck management? A) Release work orders to the system at the bottleneck's capacity pace. B) Lost time at the bottleneck is lost system capacity. C) Increasing capacity at non-bottleneck stations is a mirage. D) Increased bottleneck capacity is increased system capacity. E) Bottlenecks should be moved to the end of the system process.

C

Which of the following represents a common way to manage capacity in the service sector? A) appointments B) reservations C) changes in staffing levels D) first-come, first-served service rule E) "early bird" specials in restaurants

A

Which of the following represents an aggressive approach to demand management in the service sector when demand and capacity are not particularly well matched? A) lower resort hotel room prices on Wednesdays B) appointments C) reservations D) first-come, first-served rule E) none of the above

B

Which of the following statements regarding fixed costs is TRUE? A) Fixed costs rise by a constant amount for every added unit of volume. B) While fixed costs are ordinarily constant with respect to volume, they can "step" upward if volume increases result in additional fixed costs. C) Fixed costs are those costs associated with direct labor and materials. D) Fixed costs equal variable costs at the break-even point. E) Fixed cost is the difference between selling price and variable cost.

E

Which of the following techniques is NOT a technique for dealing with a bottleneck? A) Schedule throughput to match the capacity of the bottleneck. B) Increase the capacity of the constraint. C) Have cross-trained employees available to keep the constraint at full operation. D) Develop alternate routings. E) All are techniques for dealing with bottlenecks.

C

A capacity alternative has an initial cost of $50,000 and cash flow of $20,000 for each of the next four years. If the cost of capital is 5 percent, the net present value of this investment is: A) greater than $80,000 but less than $130,000. B) greater than $130,000. C) less than $30,000. D) impossible to calculate, because no interest rate is given. E) impossible to calculate, because variable costs are not known.

A

A capacity alternative has an initial cost of $50,000 and cash flow of $20,000 for each of the next four years. If the cost of capital is 5 percent, what is the approximate net present value of this investment? A) $20,920 B) $26,160 C) $49,840 D) $70,920 E) $106,990

A

A product sells for $5, and has unit variable costs of $3. This product accounts for $20,000 in annual sales, out of the firm's total of $60,000. When performing multiproduct break-even analysis, what is the weighted contribution of this product? A) 0.133 B) 0.200 C) 0.40 D) 0.667 E) $1.667

D

A retailer is considering building a large store. If the local economy experiences expansion, the firm expects the store to earn a $2,000,000 profit next year. If the local economy experiences a contraction, the firm expects the store to lose $400,000 next year. Analysts estimate a 20% chance for the local economy to experience an expansion next year (hence an 80% chance for contraction). What is the expected monetary value (EMV) of building the large store? A) $1,600,000 B) $720,000 C) $2,000,000 D) $80,000 E) $1,520,000

A

A tortilla chip workstation produces 1,000 chips in 20 seconds. What is its bottleneck time? A) .02 seconds per chip B) 50 chips per second C) 20 seconds D) 6000 chips per minute E) 20,000 seconds

A

A useful tactic for increasing capacity is to redesign a product in order to facilitate more throughput. A. TRUE B. FALSE

B

A work system has five stations that have process times of 5, 9, 4, 9, and 8. What is the bottleneck time? A) 4 B) 9 C) 18 D) 35 E) 7

D

A work system has five stations that have process times of 5, 9, 4, 9, and 8. What is the throughput time of the system? A) 4 B) 9 C) 18 D) 35 E) 7

C

Adding a complementary product to what is currently being produced is a demand management strategy used when: A) demand exceeds capacity. B) capacity exceeds demand for a product that has stable demand. C) the existing product has seasonal or cyclical demand. D) price increases have failed to bring about demand management. E) efficiency exceeds 100 percent.

A

An assembly line has 10 stations with times of 1, 2, 3, 4, ..., 10, respectively. What is the bottleneck time? A) 18.18% of the throughput time B) 100% of the throughput time C) 550% of the throughput time D) 50% of the throughput time E) 1.82% of the throughput time

A

An organization whose capacity is on that portion of the average unit cost curve that falls as output rises: A) has a facility that is below optimum operating level and should build a larger facility. B) has a facility that is above optimum operating level and should reduce facility size. C) is suffering from diseconomies of scale. D) has utilization higher than efficiency. E) has expected output higher than rated capacity.

B

Basic break-even analysis typically assumes that: A) revenues increase in direct proportion to the volume of production, while costs increase at a decreasing rate as production volume increases. B) variable costs and revenues increase in direct proportion to the volume of production. C) both costs and revenues are made up of fixed and variable portions. D) costs increase in direct proportion to the volume of production, while revenues increase at a decreasing rate as production volume increases because of the need to give quantity discounts. E) All of the above are assumptions in the basic break-even model.

D

Break-even analysis can be used by a firm that produces more than one product, but: A) the results are estimates, not exact values. B) the firm must allocate some fixed cost to each of the products. C) each product has its own break-even point. D) the break-even point depends upon the proportion of sales generated by each of the products. E) None of these statements is true.

B

Break-even analysis identifies the volume at which fixed costs and revenue are equal. A. TRUE B. FALSE

B

Break-even analysis is a powerful analytical tool, but is useful only when the organization produces a single product. A. TRUE B. FALSE

E

Break-even is the number of units at which: A) total revenue equals price times quantity. B) total revenue equals total variable cost. C) total revenue equals total fixed cost. D) total profit equals total cost. E) total revenue equals total cost.

B

Consider the assembly line below. The three fabrication operations run in parallel, such that each batch of 20 units only needs to go through one of the three fabrication operations. After that, each batch needs to go through both assembly operations, which occur simultaneously (specifically, 10 components are made for each unit in the fabrication stage—some components are then assembled in the Assembly 1 area while others are assembled in the Assembly 2 area). The units are packaged and made ready for shipment in the final stage. fabrication (24 min) --> assembly 1 (7 min) --> packaging (3min) fabrication (24 min) -->assembly (6min) fabrication (24 min) --> What is the bottleneck time per batch of this operation? A) 24 min. B) 8 min. C) 88 min. D) 34 min. E) 3 min.

D

Consider the assembly line below. The three fabrication operations run in parallel, such that each batch of 20 units only needs to go through one of the three fabrication operations. After that, each batch needs to go through both assembly operations, which occur simultaneously (specifically, 10 components are made for each unit in the fabrication stage—some components are then assembled in the Assembly 1 area while others are assembled in the Assembly 2 area). The units are packaged and made ready for shipment in the final stage. fabrication (24 min) --> assembly 1 (7 min) --> packaging (3min) fabrication (24 min) -->assembly (6min) fabrication (24 min) --> What is the throughput time per batch of this operation? A) 88 min. B) 8 min. C) 40 min. D) 34 min. E) 33 min.

A

Consider the simple 3-station assembly line illustrated below, where the 2 machines at Station 1 are parallel, i.e., the product only needs to go through one of the 2 machines before proceeding to Station 2. station 1 machine 1 (cap 3 units) --> station 2 (cap 5 units) --> station 3 (cap 10 units) station 1 machine 1 (cap 3 units) What is the bottleneck time of this process? A) 12 min. B) 20 min. C) 38 min. D) 6 min. E) 10 min.

c

Consider the simple 3-station assembly line illustrated below, where the 2 machines at Station 1 are parallel, i.e., the product only needs to go through one of the 2 machines before proceeding to Station 2. station 1 machine 1 (cap 3 units) --> station 2 (cap 5 units) --> station 3 (cap 10 units) station 1 machine 1 (cap 3 units) What is the throughput time of this process? A) 12 min. B) 20 min. C) 38 min. D) 18 min. E) 58 min.


Related study sets

The American Vision Chapter 21 Key Terms

View Set

Chapter 12 - Perfect Competition and Supply Curve

View Set

AEF Topic 4 -- Magnetism and Inductors

View Set

Upper respiratory system drugs sem. 2

View Set

Psychiatric-Mental Health Practice Exam HESI

View Set

10 Benefits of Reading & Petrobras

View Set