Economic order quantity: Difference between revisions

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(EOQ).
(EOQ).
   
   
The optimal size of orders and frequency for ordering stocks or raw materials based on the periodic demand (D), the fixed ordering cost (F) and the periodic holding cost (H) of the item of stock in question.
The optimal size of orders and frequency for ordering stocks or raw materials based on the periodic demand (D), the fixed ordering cost (F) and  
the periodic holding cost (H) of the item of stock in question.
 


Expressed as a formula:
Expressed as a formula:


EOQ = (2FD/H)<sup>1/2</sup>
EOQ = (2FD / H)<sup>(1/2)</sup>
 


Where:
Where:
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H = annual Holding cost per unit of the item (eg £40)
H = annual Holding cost per unit of the item (eg £40)


'''Example 1'''


In this case:
In this case:


EOQ = (2FD/H)<sup>1/2</sup>
EOQ = (2FD / H)<sup>(1/2)</sup>


= (2 x £20 x 100/£40)<sup>1/2</sup>
= (2 x £20 x 100 / £40)<sup>(1/2)</sup>


= 10 units per order.
= 10 units per order.
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With this size of order, the average number of orders per year would be  
With this size of order, the average number of orders per year would be  


100/10 = 10 orders.
100 / 10 = 10 orders.




Line 41: Line 46:
Average stock levels would be  
Average stock levels would be  


10/2 = 5 units.
10 / 2 = 5 units.




Line 55: Line 60:
= £200 + £200  
= £200 + £200  


= £400.
'''= £400.'''




'''<u>Proof</u>:'''
'''Example 2'''


Total costs would be greater with any other number of units per order (other than the EOQ of 10 units calculated above), for example:
Total costs would be greater with any other number of units per order (other than the EOQ of 10 units calculated above), for example:
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the average number of orders per year would be  
the average number of orders per year would be  


100/9 = 11.111 orders.
100 / 9 = 11.111 orders.




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Average stock levels would be  
Average stock levels would be  


9/2 = 4.5 units.
9 / 2 = 4.5 units.




Line 93: Line 98:
= £222 + £180  
= £222 + £180  


= £402.
'''= £402.'''




Line 100: Line 105:
the average number of orders per year would be  
the average number of orders per year would be  


100/11 = 9.0909 orders.
100 / 11 = 9.0909 orders.




Line 112: Line 117:
Average stock levels would be  
Average stock levels would be  


11/2 = 5.5 units.
11 / 2 = 5.5 units.




Line 126: Line 131:
= £180 + £222  
= £180 + £222  


= £402.
'''= £402.'''




== See also ==
== See also ==
* [[Just in time]]
* [[Just in time]]
* [[Order]]
* [[Stock]]
* [[Stock]]
[[Category:Accounting,_tax_and_regulation]]

Latest revision as of 17:00, 10 March 2021

Management accounting.

(EOQ).

The optimal size of orders and frequency for ordering stocks or raw materials based on the periodic demand (D), the fixed ordering cost (F) and the periodic holding cost (H) of the item of stock in question.


Expressed as a formula:

EOQ = (2FD / H)(1/2)


Where:

F = the Fixed cost per order (eg £20)

D = the annual Demand, or usage, of the item (eg 100 units)

H = annual Holding cost per unit of the item (eg £40)


Example 1

In this case:

EOQ = (2FD / H)(1/2)

= (2 x £20 x 100 / £40)(1/2)

= 10 units per order.


With this size of order, the average number of orders per year would be

100 / 10 = 10 orders.


Total annual ordering costs

= 10 orders x £20/order

= £200.


Average stock levels would be

10 / 2 = 5 units.


Total annual stock holding costs

= 5 units x £40/unit

= £200.


Grand total costs

= £200 + £200

= £400.


Example 2

Total costs would be greater with any other number of units per order (other than the EOQ of 10 units calculated above), for example:


With 9 units per order,

the average number of orders per year would be

100 / 9 = 11.111 orders.


Total annual ordering costs

= 11.111 orders x £20/order

= £222.


Average stock levels would be

9 / 2 = 4.5 units.


Total annual stock holding costs

= 4.5 units x £40/unit

= £180.


Grand total costs

= £222 + £180

= £402.


With 11 units per order,

the average number of orders per year would be

100 / 11 = 9.0909 orders.


Total annual ordering costs

= 9.0909 orders x £20/order

= £182.


Average stock levels would be

11 / 2 = 5.5 units.


Total annual stock holding costs

= 5.5 units x £40/unit

= £220.


Grand total costs

= £180 + £222

= £402.


See also