Answer:
the freedom for individuals to choose businesses, the right to private property, profits as an incentive, competition, and consumer sovereignty.
Explanation:
Answer:
option A
Explanation:
The correct answer is option A.
When interest rates are declining , prices of the bond rise, but in this case the discount bonds will appreciate more than the premium bonds.
When interest rates fall it becomes very easier to borrow money and causing many companies to issue new bonds so that they can invest in new ventures.
A premium bond is a bond trading above its face value.
A bond issued at a discount has its market price below the face value.
Answer:
TRUE
Explanation:
Value can be defined as the thing for which an customer is willing to pay the price. It is the activity on any shop floor or business for delivering the product or service to the customer for which the customer is ready to pay the price for it.
If the customers does not wish to pay the price, then there is no value.
So inside a factory, in a shop floor, moving a part from one place to another for making a product that the customer is willing to pay is a value added activity. But excess movement or transportation of product does not any value to it, it is then considered as a waste.
Also storing of products is a non value activity as storing a product will not help the customer in any way and a customer will not pay for a product when it is stored and is of no use to the customer.
Answer: $40,800
Explanation:
Each unit requires 2 hours of direct labor.
1,020 units would therefore require:
= 1,020 * 2
= 2,040 hours of labor
The direct labor rate is $20 per hour. If there are 2,040 hours to be worked, the cost would therefore be:
= 20 * 2,040
= $40,800
Answer:
The answer is: 14,400 different production sequences are possible
Explanation:
For this calculation I will assume that the first 5 operations can be made in any order, as well as the last 5.
For the first set of machining operations, since they can go in any order, you choose one operation and then you have 4 operations left, then you choose another operation and you have 3 operations left, then you choose another operation and you have 2 operations left, you choose another option and you have only 1 operation left. This process can be expressed by the following equation: 5 x 4 x 3 x 2 x 1 = 120 possible different combinations. Mathematically it can also be expressed as 5! = 120
The same for the last 5 assembly operations, you have 5 x 4 x 3 x 2 x 1 = 120 possible different combinations.
So to get the total possible combinations of all the process, we just multiply 120 x 120 = 14,000 or 5! x 5! = 14,400
