Answer: His thinking process about his role illustrates reflexivity.
Explanation:
Reflexivity is one of the most important characteristics of a good researcher. It stands for a researcher's frequent reflection upon the research process. If someone practices reflexivity, it usually means that he/she is self-aware. Reflexivity can be practiced through keeping a journal, having a conversation with the colleagues/participants, or continually reflecting on the research process. <em>Attia and Edge</em> (2016) argue that reflexivity can be displayed in two ways:
- <em>prospective</em>, which refers to the researcher's impact on the study
- <em>retrospective</em>, which involves the effect of the study on the researcher.
Answer:
An organization has a diversity of employees with different functionalities and knowledge so that the company's goals and objectives are achieved.
In a work team, the integration of members and collaboration are essential to achieve the goals, as each member adds to the team with their knowledge and experience for the effectiveness of the collective work.
It is essential, then, that each employee uses their strengths to integrate the team, as each person contributing their ideas and talents, the possibility of achieving greater challenges and finding greater solutions will be much greater by combining the knowledge and skills of each member team's.
Answer:
you could use the microarray technology to see which genes his cancer cells have increased, lessened, turned on, or turned off.
Explanation:
Microarray technology is a unique tool used almost exclusively in molecular biology, since it is able of counting hundreds or thousands of gene transcripts from a specific cell or tissue sample at the same time. Therefore based on the information provided within the question it can be said that in this scenario you could use the microarray technology to see which genes his cancer cells have increased, lessened, turned on, or turned off.
The law of conservation of mass states that in a chemical reaction mass is neither created nor destroyed. For example, the carbon atom in coal becomes carbon dioxide when it is burned. The carbon atom changes from a solid structure to a gas but its mass does not change.
