Answer:
a. My list is the following:
1. presence of photosynthetic pigments
2. presence of cell wall
3. body symmetry pattern
4. presence of cell nucleus
5. presence of specialized organelles
6. presence of hair
7. presence of mammal glands
8. niche (e.g., terrestrial or marine habitats)
9. diet (food habits)
10. position of a particular muscle
Explanation:
b. In the list above, traits such as the presence of a cell nucleus or specialized organelles can be used to classify organisms at the kingdom level (since these phenotypic features are observed in eukaryotic organisms but not in prokaryotes). In a similar mode, animals may exhibit two different body symmetry patterns: radial (around the central axis) and bilateral (two sides: left and right), thereby symmetry body can be used to classify organisms within the animal kingdom. Other features used to classify species at high levels include the presence of photosynthetic pigments in green plants (chlorophyll) and bacteria (xanthophyll), presence of cell walls in plants (composed of cellulose,) and fungi (composed of chitin), presence of hair and mammal glands (mammals), etc. On the other hand, ecological differences (e.g., food habits, niche) and minor anatomical differences (e.g., the position of a particular muscle) are helpful to classify species at the family/genus level.
Everything from oceans, rivers, and lakes to plants, fish and wildlife are dependent on a healthy water supply. A water supply degraded by pollution touches everything on Earth through the process of the water cycle. Drought can lead to sinkholes and massive rains on dried out earth can cause mudslides.
Explanation:
Corporate Culture- The values, norms, and other orientation that characterizes corporate work settings.
Hidden Corporate Culture- Stereotypes of the traits that make for high-performing and underperforming workers
Answer:
C i think.......................................
Punnett square you would use to find that out
