Monday, September 21, 2009

Variance Analysis

Variance Analysis

A variance is the difference between an actual result and an expected result. The process by which the total difference between standard and actual results is analysed is known as variance analysis. When actual results are better than the expected results, we have a favourable variance (F). If, on the other hand, actual results are worse than expected results, we have an adverse (A).
I will use this example throughout this Exercise:
Standard cost of Product A $
Materials (5kgs x $10 per kg) 50
Labour (4hrs x $5 per hr) 20
Variable o/hds (4 hrs x $2 per hr) 8
Fixed o/hds (4 hrs x $6 per hr) 24
102

Budgeted results
Production: 1,200 units
Sales: 1,000 units
Selling price: $150 per unit
ACTUAL Results
Production: 1,000 units
Sales: 900 units
Materials: 4,850 kgs, $46,075
Labour: 4,200 hrs, $21,210
Variable o/hds: $9,450
Fixed o/hds: $25,000
Selling price: $140 per unit


1. Variable cost variances
Direct material variances
The direct material total variance is the difference between what the output actually cost and what it should have cost, in terms of material.
From the example above the material total variance is given by:
$
1,000 units should have cost (x $50) 50,000
But did cost 46,075
Direct material total variance 3, 925 (F)
It can be divided into two sub-variances
The direct material price variance
This is the difference between what the actual quantity of material used did cost and what it should have cost.
$
4,850 kgs should have cost (x $10) 48,500
But did cost 46,075
Direct material price variance 2,425 (F)
The direct material usage variance
This is the difference between how much material should have been used for the number of units actually produced and how much material was used, valued at standard cost
1,000 units should have used (x 5 kgs) 5,000 kgs
But did use 4,850 kgs
Variance in kgs 150 kgs (F)
Valued at standard cost per kg x $10
Direct material usage variance in $ $1,500 (F)
The direct material price variance is calculated on material purchases in the period if closing stocks of raw materials are valued at standard cost or material used if closing stocks of raw materials are valued at actual cost (FIFO).
Direct labour total variance
The direct labour total variance is the difference between what the output should have cost and what it did cost, in terms of labour.
$
1,000 units should have cost (x $20) 20,000
But did cost 21,210
Direct material price variance 1,210 (A)
Direct labour rate variance
This is the difference between what the actual number of hours worked should have cost and what it did cost.
4200hrs should have cost (4200hrs x $5) $21000
But did cost $21210
Direct labour rate variance $210(A)
The direct labour efficiency variance
The is the difference between how many hours should have been worked for the number of units actually produced and how many hours were worked, valued at the standard rate per hour.
$
1,000 units should have taken (x 4 hrs) 4,000 hrs
But did take 4,200 hrs
Variance in hrs 200 hrs
Valued at standard rate per hour x $5
Direct labour efficiency variance $1,000 (A)
When idle time occurs the efficiency variance is based on hours actually worked (not hours paid for) and an idle time variance (hours of idle time x standard rate per hour) is calculated.
2. Variable production overhead total variances
The variable production overhead total variance is the difference between what the output should have cost and what it did cost, in terms of variable production overhead.
$
1,000 units should have cost (x $8) 8,000
But did cost 9,450
Variable production o/hd expenditure variance 1,450 (A)
The variable production overhead expenditure variance
This is the difference between what the variable production overhead did cost and what it should have cost
$
4,200 hrs should have cost (x $2) 8,400
But did cost 9,450
Variable production o/hd expenditure variance 1,050 (A)
The variable production overhead efficiency variance
This is the same as the direct labour efficiency variance in hours, valued at the variable production overhead rate per hour.
Labour efficiency variance in hours 200 hrs (A)
Valued @ standard rate per hour x $2
Variable production o/hd efficiency variance $400 (A)
3. Fixed production overhead variances
The total fixed production variance is an attempt to explain the under- or over-absorbed fixed production overhead.
Remember that overhead absorption rate = Budgeted fixed production overhead
Budgeted level of activity
If either the numerator or the denominator or both are incorrect then we will have under- or over-absorbed production overhead.
• If actual expenditure ± budgeted expenditure (numerator incorrect) » expenditure variance
• If actual production / hours of activity » budgeted production / hours of activity (denominator incorrect) » volume variance.
• The workforce may have been working at a more or less efficient rate than standard to produce a given output » volume efficiency variance (similar to the variable production overhead efficiency variance).
• Regardless of the level of efficiency, the total number of hours worked could have been more or less than was originally budgeted (employees may have worked a lot of overtime or there may have been a strike and so actual hours worked were less than budgeted) » volume capacity variance.
4. The fixed production overhead variances are calculated as follows:
Fixed production overhead variance
This is the difference between fixed production overhead incurred and fixed production overhead absorbed (= the under- or over-absorbed fixed production overhead)
$
Overhead incurred 25,000
Overhead absorbed (1,000 units x $24) 24,000
Overhead variance 1,000 (A)
Fixed production overhead expenditure variance
This is the difference between the budgeted fixed production overhead expenditure and actual fixed production overhead expenditure
$
Budgeted overhead (1,200 x $24) 28,800
Actual overhead 25,000
Expenditure variance 3,800 (F)
Fixed production overhead volume variance
This is the difference between actual and budgeted production volume multiplied by the standard absorption rate per unit.
$
Actual production at std rate (1,000 x $24) 24,000
Budgeted production at std rate (1,200 x $24) 28,800
4,800 (A)
Fixed production overhead volume efficiency variance
This is the difference between the number of hours that actual production should have taken, and the number of hours actually worked (usually the labour efficiency variance), multiplied by the standard absorption rate per hour.
Labour efficiency variance in hours 200 hrs (A)
Valued @ standard rate per hour x $6
Volume efficiency variance $1,200 (A)
Fixed production overhead volume capacity variance
This is the difference between budgeted hours of work and the actual hours worked, multiplied by the standard absorption rate per hour
Budgeted hours (1,200 x 4) 4,800 hrs
Actual hours 4,200 hrs
Variance in hrs 600 hrs (A)
x standard rate per hour x $6
$3,600 (A)
KEY.
The fixed overhead volume capacity variance is unlike the other variances in that an excess of actual hours over budgeted hours results in a favourable variance and not an adverse variance as it does when considering labour efficiency, variable overhead efficiency and fixed overhead volume efficiency. Working more hours than budgeted produces an over absorption of fixed overheads, which is a favourable variance.
Sales
variances
5. Selling price variance
The selling price variance is a measure of the effect on expected profit of a different selling price to standard selling price. It is calculated as the difference between what the sales revenue should have been for the actual quantity sold, and what it was.
$
Revenue from 900 units should have been (x $150) 135,000
But was (x $140) 126,000
Selling price variance 9,000 (A)
Sales volume variance
The sales volume variance is the difference between the actual units sold and the budgeted quantity, valued at the standard profit per unit. In other words it measures the increase or decrease in standard profit as a result of the sales volume being higher or lower than budgeted.
Budgeted sales volume 1,000 units
Actual sales volume 900 units
Variance in units 100 units (A)
x standard margin per unit (x $ (150 – 102) ) x $48
Sales volume variance $4,800 (A)
KEY.
Don’t forget to value the sales volume variance at standard contribution marginal costing is in use.
Operating Statement
Operating
statements
The most common presentation of the reconciliation between budgeted and actual profit is as follows.
$ $
Budgeted profit before sales and admin costs X
Sales variances - price X
- volume X
X
Actual sales minus standard cost of sales X

Cost variances $ $
(F) (A)
Material price X
Material usage etc __ X
X X X
Sales and administration costs X
Actual profit X
Variances in a standard marginal costing system
• No fixed overhead volume variance
• Sales volume variances are valued at standard contribution margin (not standard profit margin)
Reasons, interdependence and significance
6. Reasons for variances
Material price
• (F) – unforseen discounts received, greater care taken in purchasing, change in material standard
• (A)– price increase, careless purchasing, change in material standard.
Material usage
• (F) – material used of higher quality than standard, more effective use made of material
• (A) – defective material, excessive waste, theft, stricter quality control
Labour rate
• (F) – use of workers at rate of pay lower than standard
• (A) – wage rate increase
Idle time
• Machine breakdown, non-availability of material, illness
Labour efficiency
• (F) – output produced more quickly than expected because of work motivation, better quality of equipment or materials
• (A) – lost time in excess of standard allowed, output lower than standard set because of deliberate restriction, lack of training, sub-standard material used.
Overhead expenditure
• (F) – savings in cost incurred, more economical use of services.
• (A) – increase in cost of services used, excessive use of services, change in type of services used
Overhead volume
• (F) – production greater than budgeted
• (A) – production less than budgeted
7. Interdependence between variances
The cause of one (adverse) variance may be wholly or partly explained by the cause of another (favourable) variance.
• Material price or material usage and labour efficiency
• Labour rate and material usage
• Sales price and sales volume
8. The significance of variances
The decision as to whether or not a variance is so significant that it should be investigated should take a number of factors into account.
• The type of standard being used
• Interdependence between variances
• Controllability
• Materiality
9. Materials mix and yield variances
The materials usage variance can be subdivided into a materials mix variance and a materials yield variance if the proportion of materials in a mix is changeable and controllable.
The mix variance indicates the effect on costs of changing the mix of material inputs.
The yield variance indicates the effect on costs of material inputs yielding more or less than expected.
Standard input to produce 1 unit of product X:
$
Material A 20 kgs x $10 200
Material B 30 kgs x $5 150
350
In period 3, 13 units of product X were produced from 250 kgs of material A and 350 kgs of material B.
Solution 1: individual prices per kg as variance valuation cases
Mix Variance
Kgs
Standard mix of actual use: A: 2/5 x (250+350) 240
B: 3/5 x (250+350) 360
600
===

A B
Mix should have been 240 kgs 360 kgs
But was 250 kgs 350 kgs
Mix variance in kgs 10 kgs (A) 10 kgs (F)
x standard cost per kg x $10 x $5
Mix variance in $ $100 (A) $50 (F)
===== ===
50 (A)

Total mix variance in quantity is always zero.
Yield variance
A B
13 units of product X should have used 260 kgs 390 kgs
but actual input in standard mix was 240 kgs 360 kgs
Yield variance in kgs 20 kgs (F) 30 kgs (F)
x standard cost per kg x $10 x $5
$200 (F) $150 (F)
===== =====
$350 (F)
====

Solution 2: budgeted weighted average price per unit of input as variance valuation base.
Therefore, Budgeted weighted average price =$350/50 = $7 per kg
• Mix variance
A B
13 units of product X should have used 260 kgs 390 kgs
but did use 250 kgs 350 kgs
Usage variance in kgs 10 kgs (F) 40 kgs (F)
x individual price per kg – budgeted
weighted average price per kg
$ (10 – 7) x $3
$ (5 – 7) ____ x ($2)
$30 (F) $80 (A)
=== ===
$50 (A)
===

• Yield variance
A B
Usage variance in kgs 10 kg (F) 40 kg (F)
x budgeted weighted average
Price per kg x $7 x $7
$70 (F) $ 280 (F)
=== ====
$350 (F)
====

10. Sales mix and quantity variances
The sales volume variance can be subdivided into a mix variance if the proportions of products sold are controllable.
Sales mix variance
This variance indicates the effect on profit of changing the mix of actual sales from the standard mix.
It can be calculated in one of two ways.
• The difference between the actual total quantity sold in the standard mix and the actual quantities sold, valued at the standard margin per unit.
• The difference between actual sales and budgeted sales, valued at (standard profit per unit – budgeted weighted average profit per unit)
Sales quantity variance
This variance indicates the effect on profit of selling a different total quantity from the budgeted total quantity.
It can be calculated in one of two ways.
• The difference between actual sales volume in the standard mix and budgeted sales valued at the standard margin per unit.
• The difference between actual sales volume and budgeted sales valued at the budgeted weighted average profit per unit.
KEY.
With all variance calculations, from the most basic (such as variable cost variances) to the more complex (such as mix and yield / mix and quantity variances), it is vital that you do not simply learn formulae. You must understand what your calculations are supposed are supposed to show.
VARIANCES ANALYSIS PRACTICE QUESTIONS
Question 1
Standard Cost for Product RBT
£
Materials (10kg x £8 per kg) 80
Labour (5hrs x £6 per hr) ¬ 30
Variable O/Hds (5hrs x £8 per hr) 40
Fixed O/Hds (5hrs x £9 per hr) 45
195
Budgeted Results
Production 10000 units
Sales 7500 units
Selling Price £300 per unit
Actual Results
Production 8000 units
Sales 6000 units
Materials 85000 kg Cost £700000
Labour 36000 hrs Cost £330900
Variable O/Hds £400000
Fixed O/Hds £500000
Selling Price £260 per unit
Calculate
a. Material total variance
b. Material price variance
c. Material usage variance
d. Labour total variance
e. Labour rate variance
f. Labour efficiency variance
g. Variable overhead total variance and all sub- variances
h. Fixed Production overhead total Variance and all sub-variances
i. Selling price variance
j. Sales volume variance
Question 2
Standard Cost for Product TUH
£
Materials (10kg x £8 per kg) 80
Labour (5hrs x £6 per hr) ¬ 30
Variable O/Hds (5hrs x £8 per hr) 40
Fixed O/Hds (5hrs x £9 per hr) 45
195
Budgeted Results
Production 11000 units
Sales 7500 units
Selling Price £300 per unit
Actual Results
Production 9000 units
Sales 7000 units
Materials 85000 kg Cost £700000
Labour 36000 hrs Cost £330900
Variable O/Hds £410000
Fixed O/Hds £520000
Selling Price £260 per unit
Calculate
a. Material total variance
b. Material price variance
c. Material usage variance
d. Labour total variance
e. Labour rate variance
f. Labour efficiency variance
g. Variable overhead total variance and all sub- variances
h. Fixed Production overhead total Variance and all sub-variances
i. Selling price variance
j. Sales volume variance
Question 3
Standard Cost for Product TD
£
Materials (10kg x £5 per kg) 50
Labour (5hrs x £6 per hr) ¬ 30
Variable O/Hds (5hrs x £8 per hr) 40
Fixed O/Hds (5hrs x £9 per hr) 45
165
Budgeted Results
Production 8000 units
Sales 7500 units
Selling Price £300 per unit
Actual Results
Production 11000 units
Sales 10000 units
Materials 85000 kg Cost £700000
Labour 36000 hrs Cost £330900
Variable O/Hds £400000
Fixed O/Hds £500000
Selling Price £320 per unit
Calculate
a. Material total variance
b. Material price variance
c. Material usage variance
d. Labour total variance
e. Labour rate variance
f. Labour efficiency variance
g. Variable overhead total variance and all sub- variances
h. Fixed Production overhead total Variance and all sub-variances
i. Selling price variance
j. Sales volume variance
Question 4
Standard Cost for Product WXYZ
£
Materials (4kg x £8 per kg) 32
Labour (5hrs x £10 per hr) ¬ 50
Variable O/Hds (5hrs x £8 per hr) 40
Fixed O/Hds (5hrs x £6 per hr) 30
152
Budgeted Results
Production 10000 units
Sales 7500 units
Selling Price £300 per unit
Actual Results
Production 8000 units
Sales 6000 units
Materials 85000 kg Cost £700000
Labour 36000 hrs Cost £330900
Variable O/Hds £400000
Fixed O/Hds £500000
Selling Price £260 per unit
Calculate
a. Material total variance
b. Material price variance
c. Material usage variance
d. Labour total variance
e. Labour rate variance
f. Labour efficiency variance
g. Variable overhead total variance and all sub- variances
h. Fixed Production overhead total Variance and all sub-variances
i. Selling price variance
j. Sales volume variance
Question 5
Standard Cost for Product RTY
£
Materials (10kg x £8 per kg) 80
Labour (5hrs x £6 per hr) ¬ 30
Variable O/Hds (5hrs x £8 per hr) 40
Fixed O/Hds (5hrs x £9 per hr) 45
195
Budgeted Results
Production 13000 units
Sales 10000 units
Selling Price £300 per unit
Actual Results
Production 12000 units
Sales 9000 units
Materials 90000 kg Cost £750000
Labour 40000 hrs Cost £350000
Variable O/Hds £500000
Fixed O/Hds £600000
Selling Price £350 per unit
Calculate
a. Material total variance
b. Material price variance
c. Material usage variance
d. Labour total variance
e. Labour rate variance
f. Labour efficiency variance
g. Variable overhead total variance and all sub- variances
h. Fixed Production overhead total Variance and all sub-variances
i. Selling price variance
j. Sales volume variance
Question 6
Standard Cost for Product RED
£
Materials (10kg x £7 per kg) 70
Labour (5hrs x £6 per hr) ¬ 30
Variable O/Hds (5hrs x £8 per hr) 40
Fixed O/Hds (5hrs x £9 per hr) 45
185
Budgeted Results
Production 10500 units
Sales 7800 units
Selling Price £310 per unit
Actual Results
Production 8500 units
Sales 6200 units
Materials 87000 kg Cost £700000
Labour 36000 hrs Cost £330900
Variable O/Hds £400000
Fixed O/Hds £550000
Selling Price £270 per unit
Calculate
a. Material total variance
b. Material price variance
c. Material usage variance
d. Labour total variance
e. Labour rate variance
f. Labour efficiency variance
g. Variable overhead total variance and all sub- variances
h. Fixed Production overhead total Variance and all sub-variances
i. Selling price variance
j. Sales volume variance
Question 7
Standard Cost for Product BUZZ
£
Materials (3kg x £8 per kg) 24
Labour (5hrs x £10 per hr) ¬ 50
Variable O/Hds (5hrs x £9 per hr) 45
Fixed O/Hds (5hrs x £10 per hr) 50
169
Budgeted Results
Production 10000 units
Sales 7500 units
Selling Price £300 per unit
Actual Results
Production 8000 units
Sales 6000 units
Materials 85000 kg Cost £700000
Labour 36000 hrs Cost £330900
Variable O/Hds £400000
Fixed O/Hds £500000
Selling Price £260 per unit
Calculate
a. Material total variance
b. Material price variance
c. Material usage variance
d. Labour total variance
e. Labour rate variance
f. Labour efficiency variance
g. Variable overhead total variance and all sub- variances
h. Fixed Production overhead total Variance and all sub-variances
i. Selling price variance
j. Sales volume variance
Question 8
Standard Cost for Product RST
£
Materials (10kg x £20per kg) 200
Labour (5hrs x £16 per hr) ¬ 80
Variable O/Hds (5hrs x £8 per hr) 40
Fixed O/Hds (5hrs x £9 per hr) 45
365
Budgeted Results
Production 1000 units
Sales 7500 units
Selling Price £800 per unit
Actual Results
Production 8000 units
Sales 6000 units
Materials 85000 kg Cost £700000
Labour 36000 hrs Cost £330900
Variable O/Hds £400000
Fixed O/Hds £500000
Selling Price £260 per unit
Calculate
a. Material total variance
b. Material price variance
c. Material usage variance
d. Labour total variance
e. Labour rate variance
f. Labour efficiency variance
g. Variable overhead total variance and all sub- variances
h. Fixed Production overhead total Variance and all sub-variances
i. Selling price variance
j. Sales volume variance
Question 9
Standard Cost for Product FGT
£
Materials (10kg x £8 per kg) 80
Labour (5hrs x £6 per hr) ¬ 30
Variable O/Hds (5hrs x £8 per hr) 40
Fixed O/Hds (5hrs x £9 per hr) 45
195
Budgeted Results
Production 10000 units
Sales 7500 units
Selling Price £300 per unit
Actual Results
Production 13000 units
Sales 6000 units
Materials 85000 kg Cost £700000
Labour 36000 hrs Cost £330900
Variable O/Hds £400000
Fixed O/Hds £500000
Selling Price £260 per unit
Calculate
a. Material total variance
b. Material price variance
c. Material usage variance
d. Labour total variance
e. Labour rate variance
f. Labour efficiency variance
g. Variable overhead total variance and all sub- variances
h. Fixed Production overhead total Variance and all sub-variances
i. Selling price variance
j. Sales volume variance
Question 10
Standard Cost for Product White Diamond
£
Materials (7kg x £9 per kg) 63
Labour (6hrs x £9 per hr) ¬ 54
Variable O/Hds (6hrs x £6 per hr) 36
Fixed O/Hds (6hrs x £7 per hr) 42
195
Budgeted Results
Production 12500 units
Sales 8500 units
Selling Price £500 per unit
Actual Results
Production 15000 units
Sales 8000 units
Materials 8750 kg Cost £85000
Labour 5200hrs Cost £52900
Variable O/Hds £25500
Fixed O/Hds £84000
Selling Price £600 per unit
a. Material total variance
b. Material price variance
c. Material usage variance
d. Labour total variance
e. Labour rate variance
f. Labour efficiency variance
g. Variable overhead total variance and all sub- variances
h. Fixed Production overhead total Variance and all sub-variances
i. Selling price variance
j. Sales volume variance

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