Answer:
D
Explanation:
Because there has to be competition or one population wouldnt decrease and the other wouldn't increase due to survival and reproduction the population doesn't always have to be below the carrying capacity because it can also do it when its above and natural selection can act on traits determined by different alleles.
House Cat: Felis catus
Mountain Lion: Felis concolor
Domestic dog: Canis lupus familiaris
Human: Homo sapiens
Explanation:
- The cat (Felis catus) is a kind of domestic species of small carnivorous mammal. It is the only domestic species in the family Felidae and is often referred to as the domestic cat to get varied from the wild members of the family.
- The mountain lion's scientific name is Puma concolor,
- The domestic dog is a member of the family with genus Canis (canines), which forms a basic part of the wolf-like canids, and is the most widely abundant terrestrial carnivore.
- Humans belong to a family called Homo sapiens.
When a patient is treated with large doses of atropine, the nurse should look out for symptoms relating to the drug's antimuscarinic properties like blurred vision, constipation, difficulty with urination, skin rash and xerostomia.
Sinus Bradycardia is a condition whereby a person's heart rhythm is slower than normal ( in adults, it could be as slow as 50 beats per minute ). When this occurs, the heart pumps blood too slowly to supply the patient's body system with enough blood. it happens to mostly adults over the age of 60 years. If conditions persist despite respiratory support, atropine is administered.
Atropine is an anticholinergic drug used to increase the heart rate of a person having sinus bradycardia. When administered in large doses, the patient experiences adverse side effects due to the drug's antimuscarinic effects, like blurred vision, constipation and xerostomia.
To learn more about atropine and it's side effects, visit; brainly.com/question/8174136
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Answer:
The answer is D.
Explanation:
The way x-rays are produced is as follows; using a vacuum environment in a tube, the cathode is heated to a degree where it releases electrons, then these electrons collide with the anode releasing energy that create the x-rays.
All of the options are correct. Although the electron most likely won't stop, it will slow down and change direction after the collision. The law of conservation of energy is also applied in this situation, meaning that the kinetic energy of the electron released by the cathode will transfer to the anode to produce the x-rays. Most of the energy after the collision is converted into heat, which is why the metal used as the anode can heat up to 2000 degrees celcius.
I hope this answer helps.
