Write the electronic configuration of the first 50 element using the box or orbital diagram

The system that gives body structure, shape, and protects the inner organs is the skeleton. (Skeletal system)

2. The system that breaks down food for the rest of the body to use to make energy is the Digestive system. (Digestive System)

3. This system allow the body to move ( Muscular system)

4. This system controls everything in the body by communicating all throughout other systems ( Nervous System)

5.: This system filters the waste and removes toxins from the blood ( excretory system)

6. This system transports all nutrients, wastes, oxygen, carbon dioxide and everything else throughout the blood ( cardiovascular system)

7. This system exchanges gases: oxygen for carbon dioxide ( respiratory system)

8. This system allows for life to be continued through fertilization and development of another human beings or species ( Reproductive system)

9. This system serves as protective barrier from the outside world and helps to regulate body temperature ( integumentary system)

These are systems that work together to maintain its overall function and well-being. They work together to maintain homeostasis, ensuring the body functions optimally. Some of the systems are listed above.

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Based on the morphology and anatomical features of the mystery fossil, it can be inferred that it is related to both whales and wolves.

The first clue suggesting a relationship to whales is the presence of skeletal adaptations associated with aquatic life. Whales have streamlined bodies, elongated and paddle-like limbs, and a dorsal fin, all of which aid in swimming efficiently in water.

If the mystery fossil exhibits similar characteristics, such as a streamlined body shape and limb adaptations suited for swimming, it suggests a connection to whales.

On the other hand, the potential connection to wolves can be inferred from the presence of certain dental and cranial features. Wolves belong to the family Canidae, which includes other canines like dogs and foxes.

Canids have specific dental adaptations for hunting and consuming meat, including sharp and pointed teeth for tearing flesh. If the mystery fossil exhibits similar dental characteristics, it could indicate a relationship to wolves or other canids.

By considering both the aquatic adaptations resembling whales and the carnivorous dental features resembling wolves, it can be concluded that the mystery fossil shares traits with both of these animal groups, suggesting a possible evolutionary relationship or shared ancestry between whales and wolves.

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Answer:

Interbreeding, morphological similarity, genetic similarity, shared ecology, and fossil records.

Explanation:

An animal is any member of the kingdom of Animalia, comprising multicellular organisms that have well-defined shape and usually limited growth, can move voluntarily, actively acquire food and digest it internally, and have sensory and nervous systems that allow them to respond rapidly to stimuli: some classification schemes also include protozoa and certain other single-celled eukaryotes that have motility and animal like nutritional modes.  

Species, on the other hand, is one of the classes of things included with other classes of a genus.

Animals that can successfully reproduce and produce fertile offspring are generally classified as the same species. The ability to interbreed indicates a shared gene pool and evolutionary path.

Animals with very similar physical forms, anatomies and characteristics are often considered the same species. This includes features like body shape, body covering, number of limbs, sense organs, etc.

Animals with highly similar DNA sequences, especially in their protein-coding genes, are often classified as the same species. A threshold of around 97-99% genetic similarity is typically used.

Animals that occupy the same ecological niche and have similar basic life functions (feeding, breathing, reproducing) tend to be grouped in the same species. They often depend on the same resources.

Paleontologists study fossilized remains to trace how animal forms have changed over time. Animals that show continuity in morphology and range over successive fossil layers are often classified as the same evolving species.