Question

Silven Industries, which manufactures and sells a highly successful line of summer lotions and insect repellents, has decided to diversify in order to stabilize sales throughout the year. A natural area for the company to consider is the production of winter lotions and creams to prevent dry and chapped skin.

After considerable research, a winter products line has been developed. However, Silven’s president has decided to introduce only one of the new products for this coming winter. If the product is a success, further expansion in future years will be initiated.

The product selected (called Chap-Off) is a lip balm that will be sold in a lipstick-type tube. The product will be sold to wholesalers in boxes of 24 tubes for $7 per box. Because of excess capacity, no additional fixed manufacturing overhead costs will be incurred to produce the product. However, a $55,000 charge for fixed manufacturing overhead will be absorbed by the product under the company’s absorption costing system.

Using the estimated sales and production of 110,000 boxes of Chap-Off, the Accounting Department has developed the following cost per box:

Direct materials	$	3.20
Direct labor		1.70
Manufacturing overhead		1.10
Total cost	$	6.00

The costs above include costs for producing both the lip balm and the tube that contains it. As an alternative to making the tubes, Silven has approached a supplier to discuss the possibility of purchasing the tubes for Chap-Off. The purchase price of the empty tubes from the supplier would be $1.25 per box of 24 tubes. If Silven Industries accepts the purchase proposal, direct labor and variable manufacturing overhead costs per box of Chap-Off would be reduced by 10% and direct materials costs would be reduced by 25%.

Required:

1a. Calculate the total variable cost of producing one box of Chap-Off? (Do not round intermediate calculations. Round your answer to 2 decimal places.)

1b. Assume that the tubes for the Chap-Off are purchased from the outside supplier, calculate the total variable cost of producing one box of Chap-Off? (Do not round intermediate calculations. Round your answer to 2 decimal places.)

1c. Should Silven Industries make or buy the tubes?

X	Make
	Buy

   

2. What would be the maximum purchase price acceptable to Silven Industries? (Do not round intermediate calculations. Round your answer to 2 decimal places.)

     

3. Instead of sales of 110,000 boxes, revised estimates show a sales volume of 130,000 boxes. At this new volume, additional equipment must be acquired to manufacture the tubes at an annual rental of $46,000. Assume that the outside supplier will not accept an order for less than 130,000 boxes.

a. Calculate the total relevant cost of making 130,000 boxes and total relevant cost of buying 130,000 boxes. (Do not round intermediate calculations.)

b. Based on the above calculations, should Silven Industries make or buy the boxes?

	Make
X	Buy

  

4. Refer to the data in (3) above. Assume that the outside supplier will accept an order of any size for the tubes at $1.25 per box. Which of these is the best alternative?

	Make all 130,000 boxes
	Buy all 130,000 boxes
X	Make 110,000 boxes and buy 20,000 boxes
	Make 65,000 boxes and buy 65,000 boxes

Answer 1

Solution 1a:

Total manufacturing overhead per unit at 110000 boxes = $1.10 per unit

Fixed manufacturing overhead per unit = $55000 / 110000 = $0.50 per unit

Variable manufacturing overhead per unit = $1.10 - $0.50 = $0.60 per unit

Total cost of Producing on box of Chap off = $3.20 + $1.70 + $0.60 = $5.93

Solution 1b:

Reduction in Chap-Off manufacturing costs per box, if tubes purchased from outside vendor = (Direct labor cost per unit + Variable manufacturing overhead per unit) * 10% + Direct material cost per unit * 25%

= ($1.70 + $0.60)*10% + ($3.20*25%) = $1.03 per unit

Hence, total variable cost per box of Chap-off, if tubes for the Chap-Off are purchased from the outside supplier= $5.93 + $1.25 - $1.03 = $6.15

Solution 1c:

As there is less cost in making, therefore silven should make the tubes.

Solution 2:

Maximum price that silven willing to pay outside supplier = Variable cost to make = $1.03 per box

Solution 3a:

Cost to make 130000 boxes = (130000*$1.03) + $46,000 = $179,900

Cost to buy 130000 boxes = 130000*$1.25 = $162,500

Solution 3b:

Financial advantage (Disadvantage) of buying = $162500 - $179900 = $17,400

As there is financial advantage, therefore silven should buy the boxes.

Solution 4:

If outside supplier can accept any quantity of order, then silven should make 110000 boxes and buy 20000 boxes from outside supplier.