<span>The lab teacher would be one resource that could be asked, since they are likely experienced in the use and disposal of the reagent. Also, in other instances, the Material Safety Data Sheets could be accessed, since they will have all the steps required for handling, disposal, and cleaning of the reagent, and any hazards that need to be accounted for in the cleaning-up process.</span>
Answer: $83
Explanation:
Given that,
On 1 June,
Materials purchased = 50 units
Unit price of material = $1.30
On June 15,
Materials purchased = 50 units
Unit price of material = $1.20
Total cost of 65 units:
= (Material purchased on 1 June × Unit price of material) + [(65 units - 50 units) × $1.20]
= (50 units × $1.30) + (15 units × $1.20)
= $65 + $18
= $83
Answer:
D
Explanation:
D because you have to keep up with demand
If the steps are small, a step-variable cost may be approximated using a Variable cost function without significant loss in accuracy.
<h3>Variable cost function</h3>
- An expense for the company that varies according to how much is produced or sold is called a variable cost.
- Depending on a company's production or sales volume, variable costs grow or fall. They climb as production rises and reduce as production declines.
- It is a production cost whose level fluctuates in response to shifts in a business's manufacturing activities.
- For instance, the raw materials required to make a product's components are regarded as variable costs because they frequently change depending on the volume of units produced.
- The total variable cost curve depicts the relationship between total variable cost and the volume of output produced graphically.
To learn more about the Variable cost function refer to:
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Answer:
Assume: only one of the ware house expansion projects can be implemented and suppose that, if test marketing of the new product is carried out, the advertising campaign also must be conducted and vice versa. Also suppose that the purchase of new equipment cannot be undertaken unless the basic research or the extensive warehouse expansion are implemented.
Formulate the corresponding model for maximizing the net present value subject to the restrictions stated above
Yi (1 if investment alternative is selected, o otherwise)
i = 1, 2, 3, 4, 5, 6
Max Z = $4,000y1 + 6,000y2 + 10,500y3 + 4,000y4 + 8,000y5 + 3,000y6
∴ NPV = 17,500
