Recent Question/Assignment
Assessment item 2
Assessment item 2
Value: 15%
Due date: 30-Sep-2014
Return date: 21-Oct-2014
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Task
QUESTION 1 Regression Analysis and Cost Estimation 25 marks
Deborah, the accountant at Plus Plastics wants to identify cost drivers for support overhead costs. She has the impression that the staff spend a large part of their time ensuring that the equipment is correctly set up and checking the first units of production in each batch. Deborah has collected the following data for the past 12 months:
Month Overhead Cost Machine Hours (MH) Batches
January $84,000 2,250 309
February 41,000 2,400 128
March 63,000 2,850 249
April 44,000 2,100 159
May 44,000 2,700 216
June 48,000 2,250 174
July 66,000 3,800 264
August 46,000 3,600 162
September 33,000 1,850 147
October 66,000 3,300 219
November 81,000 3,750 303
December 57,000 2,000 106
Total $673,000 32,850 2,436
(a) 5 marks
Using the high-low method estimate the cost equation using machine hours as the independent variable. Then use your equation to predict support overhead costs (to the nearest $) for a month in which 3,000 machine hours were used? (Round b-value to nearest cent.)
(b) 20 marks
Using Excel, perform three regression analyses to regress overhead cost against (1) MH, (2) Batches, then (3) against both independent variables simultaneously. State the cost equation from each. Analyse and comment on the results of each regression as you perform it, stating the cost equation, and in your analysis/comments refer to economic plausibility, goodness of fit, and statistical significance of the independent variables. Determine the best one to use as a basis for future use and explain why you chose that one.
QUESTION 2 Forecasting 25 marks
(a) 5 marks
All forecasts are never 100% accurate but subject to error.
1 How is forecast error calculated? (1 mark)
2 Identify and describe three common measures of forecast error. Then illustrate how each is calculated by constructing a 4-period example. (4 marks)
(b) 15 marks as indicated below
Consider the following table of monthly sales of car tyres by a local company:
January 300
February 350
March 500
April 550
May 400
June ?
1. 4 marks
Using a 2-month moving average develop forecasts sales for March to June inclusive.
2. 4 marks
Using a 2-month weighted moving average, with weights of 2 for the most recent month and 1 for the previous month develop forecasts sales for March to June inclusive.
3. 4 marks
The sales manager had predicted sales for January of 400 units. Using exponential smoothing with a weight of 0.1 develop forecasts sales for March to June inclusive.
4. 3 marks
Which of the three techniques gives the most accurate forecasts? How do you know?
(c) 5 marks
Describe the four patterns typically found in time series data. What is meant by the expression “decomposition†with regard to forecasting? Briefly describe the process.
QUESTION 3 CVP Analysis 25 marks
(a) 5 marks
A small factory, Pollution Control Pty Ltd, is currently engaged in the manufacture of a single product, precision fuel injectors. These fuel injectors sell for $300 per car. Costs of production include direct materials $100, direct labour 4 hours at $20 per hour, and variable overhead of $10 per direct labour hour. All other costs are fixed and total $4800 per month.
Calculate the number of fuel injectors that must be produced and sold per month for Pollution Control to break even?
(b) 5 marks
The proprietor, Mr S. Jones, decides that profits can be increased and risks reduced by adding a second product. He plans to also produce electronic ignition sets to sell for $140 each. He decides that the product mix should be 3 fuel injectors to 1 ignition set. The costs of producing the ignition set are:
Direct materials $50 per set
Direct labour 2 hours at $20 per hour
Variable overhead $5 per direct labour hour
How many fuel injectors and ignition sets must be produced and sold to yield a net profit of $3500 per month after tax, given a tax rate of 30c in the dollar?
(c) 15 marks, 5 for each part
Alpha Company produces a single product, Beta, which has the following unit selling price and costs:
Selling price per unit $2000
Variable costs per unit $1500
Fixed costs per annum $2 000 000
Prices and costs are certain, but annual demand is uncertain. It is thought that annual demand is normally distributed with expected sales of 6000 units and a standard deviation of 1000 units.
1. Calculate expected annual profit.
2. What is the standard deviation of expected profit?
3. Calculate the probability of at least breaking even.
Rationale
This assessment task covers topics 1, 2, 6, 7 and 8: probability concepts and decisions, statistical decision making, correlation and regression analysis, forecasting and cost-volume-profit analysis. It has been designed to ensure that you are engaging with the subject content on a regular basis. More specifically, it seeks to assess your ability to:
apply probability concepts to decision making
apply statistical hypothesis testing in interpreting the significance of regression coefficients in cost estimation
use time-series forecasting methods
apply cost-volume-profit analysis to product mix decisions
Marking criteria
Assessment Item 2: Marking Guidelines
GRADE REQUIREMENTS
In each of the three questions students must score the marks as shown below to gain the appropriate grade:
PS: At least 12.5 and less than 16.25 out of 25 marks.
CR: At least 16.25 and less than 18.75 out of 25 marks.
DI: At least 18.75 and less than 21.25 out of 25 marks.
HD: At least 21.25 out of 25 marks.
CRITERION GRADE REQUIREMENTS
Question 1
Apply decision theory to business situations and show understanding of statistical hypothesis testing in interpreting the significance of regression coefficients in cost estimation. To pass students must score at least 12.5 out of 25 marks.
Question 2
Use accepted time-series forecasting methods. To pass students must score at least 12.5 out of 25 marks.
Question 3
Apply cost-volume-profit analysis to product mix decisions. To pass students must score at least 12.5 out of 25 marks.