According to the case materials, Forest Hill Paper Company is classified as a small manufacturer, and one that is “closely-held.” This could lead one to believe that it is possibly a family-owned business, or at least managed very actively by a few people. Ownership must be very hands on and aware of the business from a micro and macro level. Therefore, we would classify the company as a small business and ownership is probably structured by one or a few people who are very involved. FHPC could be even be an S-corp, depending on further information.
Forest Hill operates in a very cyclical industry, with upswings every three to four years, according to the case. This is due to customers buying a lot of paper during good economic times. Customers overbuy and are left with inventories of paper, and therefore don’t buy for a while until another economic boom occurs. Therefore, the industry is very much affected by the overall macro economy. The industry is also being affected in terms of a loss of market share, because there is a trend toward plastic and the use of more environmentally friendly grades of recycled paperboard. One could argue that the industry and market is mature, and even declining. Another aspect to consider about this industry is that it is one that has barriers to entry. The costs of starting a manufacturing company are high. It is not an industry with small capital outlay. Also, there are regulations in manufacturing which could keep competition from arising.
The Essay on Transportation Industry Business Companies Service
To any industry, the challenge is clear: you must deliver unparalleled service and value to your customers. In industry, continuous change has become the norm and the challenge to management is to create a flexible and dynamic e-Business infrastructure that promises to accelerate speed-to-market, satisfy customers' demands, and deliver profitable growth. Comparison of an Industry The evolution of ...
We read in the case that Forest Hills is a small company competing against bigger companies in a commodity market. Therefore, FHPC has taken the strategy of differentiation. They have tried to offer a comprehensive amount of products and services, but are trying to stand out from the crowd by offering exceptional service and rapid responses to customer needs. Unlike the bigger companies, FHPC could develop more of a relationship with each customer, and take more time to listen to their needs and meet customer needs more efficiently. The strategy of differentiation shows their desire to create a niche based, not so much focused on innovation, but on customer service. Hopefully customers will appreciate the service, and want to continue business with FHPC as opposed to the bigger companies.
There are many examples of complexities that drive overhead costs for FHPC. One of the complexities is that the company offers a variety of products, with some different processing for each product. We read that the company tries to manufacture products in an order that decreases costs, such as keeping similar processes together. Even so, the changes in process and equipment needed drive overhead costs up with so much variety in products and steps in the manufacturing process. Each time another product is added, or even changed slightly, costs are incurred and will drive overhead in terms of increased material costs or manufacturing costs.
If Forest Hills is serious about meeting their customers individual needs, they also need to understand that each customer differential comes with greater overhead costs. The specifics of each customer desire causes complexity. We would also argue that another complexity of overhead costs is due to the cyclical nature of the business. There are times of large quantity of output, while other times production would be down as the demand decreases. This makes it difficult to predict and measure overhead costs, as the output of production varies. The management must truly try to understand their fixed and variable costs and how to balance times of boom and retraction appropriately and efficiently.
Capturing Manufacturing Costs
The current cost system allocates manufacturing overhead based on the amount of raw materials consumed in the production process. It applies the aforementioned overhead at a rate of $1.05, per $1.00 of raw materials consumed. Given the actual data gathered in exhibit 2, the rate appears to adequately account for the sum of overheads generated, as evidenced by the table below:
The Business plan on Marketing And Customer Base
HubSpot is faced with the problem of whether they should cast a wide net to attract a diverse customer base or whether they should narrow their focus to a particular target market. We recommend HubSpot target both Owner Ollie (OO) and Marketer Mary (MM) market segments, rather than focusing on a single segment, in order to accelerate growth rate and increase profitability. We approached this ...
Cost of a Grade Change
FHPC produces 20 different grades of paperboard. Each grade is unique and the amount varies so some batches maybe very large and some quite small. The company practices lean manufacturing so successive batches of similar grades are grouped together in order to reduce waste. The cost of a grade change includes the following: depreciation, labor, energy, other and lost chemicals. Assume 4 grade changes in total from the information provided.
Cost to Slit a Reel of Paperboard
A parent roll of paperboard is 12 feet long. Food processors require widths of 18 inches. This means that three slits must be made to produce 3 – 18” rolls. Approximately 6 inches of waste is produced by creating 3 – 18” rolls. Only grade A and grade C are slit. A total of 85 reels are produced each reel requiring 3 slits. A total of 255 slits are made. The overhead for slitting is $195,000 for slitting. The overhead rate per slit is $764.71. Assuming 3 slits per reel the total cost for slitting a reel is $2,294.12. Summary listed below.
New Volume-based Overhead Rate
If Forest Hill removes the overheads traceable to grade changes and slitting from total overhead, the application rate needs to be adjusted. An appropriate application rate for the remaining OH can be calculated by dividing the aforementioned OH by the sum of RM costs:
Activity Based Costs – Grades A-D
If an activity based cost system were to be implemented, the parent reel costs (for the same level of activity indicated in exhibit 1) could be estimated as follows:
Activity Based Costs and Volume Cost Percent Change
Prepare a table that illustrates the percentage change in costs between the volume-based system and the strategic activity-based system.
Conclusions and Recommendations
What conclusions can you draw from your analysis? As a consultant to Forest Hill, what actions would you recommend?
The Term Paper on Cost-Salvage Value/Total units of production
Salta Company installs a manufacturing machine in its factory at the beginning of the year at a cost of $87,000. The machine’s useful life is estimated to be 5 years, or 400,000 units of product, with a $7,000 salvage value. During its second year, the machine produces 84,500 units of product. Determine the machines’ second year depreciation under the units of production method: Answer: $16,900 ...
12. The analysis above shows the concerns of management were accurate. The costs of A and C were understated because the costs related to the slitting operation were unfairly being allocated to other grades. Grades B and D do not consume any of the slitting department resources, thus should not be responsible for the absorption of said departments’ overhead costs. In addition, the economies of scale being generated by high volume sales were being unfairly distributed to low volume grades.
This is evident in the cost of grade B, which was previously only being allocated $140 of total grade change costs (grade change as a percentage of total OH, multiplied by total overhead allocated to grade B).
Given that grade changes are only incurred if a grade is run, it makes more sense to allocate costs based on the actual number of a production runs, as opposed to how much material was consumed in a run, which has no bearing on the number of set-ups required.