Raise;decrease is the answer to this question
Answer:
$2.25 per unit
Explanation:
The computation of the cost per equivalent is shown below:
= Total conversion cost ÷ total units completed
where,
Total conversion cost is
= Beginning work in process conversion cost + cost of conversion added
= $20,250 + 271,125
= 291,375
And, the number of units is
= Units completed + work in process ending inventory units × completion percentage
= 115,700 units + 23,000 units × 60%
= 115,700 + 13,800
= 129,500 units
So, the cost per equivalent unit for conversion cost is
= $291,375 ÷ 129,500 units
= $2.25 per unit
Explanation:
The motivation for consumption comes from individual needs and desires, which may occur consciously and unconsciously. To meet their needs and wants, people identify and buy products and services that are compatible with their satisfaction.
There are several surveys and studies that seek to identify consumer behavior and explain how the purchasing decision process occurs. One of the most widespread theories in the world is Maslow's theory, which presented a hierarchy of needs that aims to identify a priority system of human needs satisfaction, divided into five parts, which are arranged in order of importance:
- physiological,
- safety,
- love,
- esteem and
- self-actualization
This theory is of great relevance to help marketers target their strategy according to the priority and need of individuals, including in their campaigns messages that send the consumer a sense of urgency for the product or service, directing marketing communication to the bottom of the hierarchy, which is the consumer's priority.
Answer:
Explanation:
A heart transplant is a surgical procedure that replaces the person’s heart with a donor heart. A person may require a heart transplant for several reasons including congenital, arterial and muscle diseases or for unforeseen reasons such as accidents or viral infections.
The donor heart is matched to the recipient by blood type. More variables are also used to decide which recipient receives a heart if there are not enough hearts available for all recipients waiting for a transplant. The variables included in the decision may include the recipient state of health, cause of the heart condition and the urgency of the transplant.
The main goal of this project is for you to write a matching function that receives as a parameter the number of available hearts for transplant and will output all the recipients ranked in order of precedence.
