I believe it should be A. The presence of a nucleus. Because for response B, it's not true as prokaryotes and eukaryotes possess cell membranes. It can't be C as their ability to interact with the environment is not as different. This is also true of ability to reproduce.
The answer to the question:
<span>This is an image of a kelp forest. All BUT ONE is a characteristic of kelp and kelp forests on the west coast of North America. That is:
A) Kelp are large brown algae.
B) Kelp live in cool, relatively shallow waters close to the shore.
C) Kelp forests form in deep, open waters and are found at depths greater than 130 feet.
D) Aquatic organisms use the thick blades in a kelp forest as a shelter for their young from predators in the area.
is:
</span>C) Kelp forests form in deep, open waters and are found at depths greater than 130 feet.
Answer:
A control group setup in an experiment is used to see if there are other variables in play during the experiment. Say I was to test which type of blood is a shark's favorite, my control would be putting red paint in one of the set ups to see if the shark is just interested in the red color of blood, instead of the other types of blood.
Explanation:
Answer:
Eukaryotic in nature. They are higher classes of Eukaryotic organisms
Answer:The correct answer to the question is option D
THE PH IS BELOW NORMAL (ACIDIC) BECAUSE THE BUFFERING CAPACITY WAS EXCEEDED.
Explanation: When insulin is being utilized well by a diabetic,glucose is metabolized because the insulin administered helps the body cells to pick up glucose from the food we eat and convert it to energy for the body to work with and function well.But when insulin is not being utilized properly by a diabetic,fats are metabolized instead of glucose that is to say that,the cells in the body are not sensitive to the glucose supplied by the food we eat which makes the body to be hypoglycemic (low blood glucose level),the body inorder to raise the blood glucose level starts breaking down stored fats in the body at a rate that is higher than normal inorder to provide energy, the liver then processes the broken down fats into a fuel that is known as ketones, these ketones are released into the blood causing the blood to be acidic,the buffering property of blood on a normal note is suppose to resist the changes in the PH of the blood,but when the buffering capacity is exceeded,there won't be any resistance to the change in the blood PH which will inturn lower the blood PH level making it acidic.
This is exactly what happened to the diabetic being described in the question.
