Answer:
C. Allow the states and the federal government to work together more easily
Answer:
The tension he feels is the result of: role strain.
Explanation:
A role is a group of obligations and behaviors that are expected of us by others and ourselves in society. <u>Role strain takes place when we have difficulty meeting the responsibilities and expectations of a particular role in our lives. This coach is experiencing role strain since he is having trouble accomplishing everything that is expected of him. On the one hand, everyone has to meaningfully participate. On the other, the team must win. The two things seem conflicting, which demands more of the coach in terms of planning, preparing, training, etc. Handling such expectations is causing tension.</u>
<u>Answer:
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The work teams approach tends to be more effective in countries such as Japan and Sweden because their work and rewards are team-centered.
<u>Explanation:
</u>
- In countries like Japan and Sweden, the work approach that they follow is designed by keeping larger work units in mind rather than working individuals.
- Focusing on teams helps in putting due emphasis on the collective output delivered by individuals working in harmony with each other to achieve a better result through cooperation.
- When the reward for work is to be given to a team as a single unit and not separately to every individual working in the team, the individuals who are a part of the team tend to give their 100%.
At a fundamental level, water provides electrons to replace those removed from chlorophyll in photosystem II. Also, water produces oxygen as well as reduces NADP to NADPH (required in the Calvin cycle) by liberating H+ ions
During the process of photosynthesis, six molecules of carbon dioxide and six molecules of water react in the presence of sunlight to form one glucose molecule and six molecules of oxygen. The role of water is to release oxygen (O) from the water molecule into the atmosphere in the form of oxygen gas (O2).
Water also has another important role of being an electron feeder. In the process of photosynthesis, water provides the electron that binds the hydrogen atom (of a water molecule) to the carbon (of carbon dioxide) to give sugar (glucose).
Water acts as a reducing agent by providing H+ ions that convert NADP to NADPH. Since NADPH is an important reducing agent present in chloroplasts, its production results in a deficit of electrons, resulting from oxidation of chlorophyll. This loss of electron must be fulfilled by electrons from some other reducing agent. Photosystem II involves the first few steps of the Z-scheme (the diagram of the electron transport chain in photosynthesis) and therefore a reducing agent that can donate electrons is required to oxidize chlorophyll, which is provided by water (acting as a source of electrons in green plants and cynobacteria). Hydrogen ions thus released create a chemical potential (chemiosmotic) across the membrane that finally results in synthesis of ATP. Photosystem II is the primary known enzyme that acts as catalyst in this oxidation of water.