Answer:
Generally, the temperature of Earth's oceans decreases as you go deeper.
Explanation:
Sunlight as well as the atmosphere may be seen as the prime reasons for the surface of the oceans to be a higher temperature than at deeper depths. The question specifically includes the word <em>generally</em> to allude to the idea that geothermal vents (as well as other features) can result in small sections of the ocean or ocean floor to even be a higher temperature than the surface, even though they are found much deeper.
Answer: The answer is D - Intramembrane space in mitochondria; high
Explanation:
Mitochondria is an organelle in the cell, it is known as the power House of the cell because of its role in the storage and production of energy. During electron transport chain the proton pumps generate a proton gradient which is stored in form of energy.
During proton pumping and electron transfer the electrons are passed down the chain from the matrix to the inter membrane of the mitochondria. The electrons move from higher concentration of level to lower energy level. Some of these are used to pump Hydrogen ions (H+), moving them out of the matrix into the inter membrane space.
The Intramembrane space of the mitochondria therefore has a a high concentration of Hydrogen ions (H+).
I hope this helps.
The answer is <span>xerophyte.
First, let's distinguish these three terms:
- Mesophyte (meso - middle; phyte - plant) - plants that live in conditions with moderate amount of water.
- Hydrophyte (hydro - water; </span><span>phyte - plant) - plants that live in water.
- Xerophyte (xero - arid; </span><span>phyte - plant) - plants that live in arid conditions, where water is scare.
Since there is no water in deserts, which are characterized by arid conditions, that means that the desert plants are xerophytes.</span>
It is called mode I think
I believe it is A. Please forgive me if I am wrong.