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2 years ago

What is the primary role of photosynthesis in the carbon cycle?

Biology

1 answer:

Ahat [919]2 years ago

6 0

Answer:

During photosynthesis, plants absorb carbon dioxide and sunlight to create fuel—glucose and other sugars—for building plant structures. This process forms the foundation of the fast (biological) carbon cycle

Explanation:

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What is the most important property of water?

Licemer1 [7]

Answer:

One of water's important properties is that it is composed of polar molecules: the hydrogen and oxygen within water molecules (H2O) form polar covalent bonds.

Explanation:

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2 years ago

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How do temperature and salinity affect deepwater currents?

WITCHER [35]

Answer: They create density differences that cause dense deepwater currents to flow toward the equator where they displace less dense, warmer water above them.

The temperature and salinity has a major impact on water current of oceanic water. The warm water is usually less denser than colder water, so it remains at the surface of water body, whereas the colder water being more in density remain in a depth. The salinity of cold water is more than the warm water.

According to the above explanation, they create density differences that cause dense deepwater currents to flow toward the equator where they displace less dense, warmer water above them is the correct explanation.

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2 years ago

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Choose the correct answer to complete these sentence. During the 1600's and 1700's, Prussian kings built a strong nation by ____

Firlakuza [10]

I think the answer is <span>A. encouraging commerce and industry which generated more income to the Prussian kingdoms.</span>

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2 years ago

In order to determine the rate of photosynthesis (the conversion by plants of carbon dioxide and water into glucose and oxygen),

Rama09 [41]

Answer:

1.6896 grams

Explanation:

Given that:

Total pressure = The pressure of $O_2$ + partial pressure of $H_2O$

∴

The pressure of $O_2$ = Total pressure - partial pressure of $H_2O$

= (754.8 - 17.55) mmHg

= 737.25 mmHg

At standard conditions:

1 mmHg = 0.00131579 atm

∴

737.25 mmHg will be: (737.25*0.00131579) atm = 0.970065928 atm

P ≅ 0.97 atm

The temperature (T) = 293 K

Volume (V) = 1.31 L

Using ideal gas equation

PV = nRT

0.97 × 1.31 = n × 0.0821 × 293

$n = \dfrac{0.97 \times 1.31}{0.0821 \times 293}$

n = 0.0528

mass of oxygen $O_2$ = no. of moles * molar mass

= 0.0528 * 32

= 1.6896 grams

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2 years ago

What distinguishes archaea from animal cells? View Available Hint(s) What distinguishes archaea from animal cells? Archaea's RNA

lapo4ka [179]

Answer & Explanation:

All archeas are single-celled organisms, and despite having prokaryotic cells, there are both similarities and differences between archaea and bacterial cells and also with eukaryotes.

Archaea have only one cell that has no nucleus or real organelles, and its cells have membranes composed of branched lipids, which greatly alter the structure of the archaeal cell membranes. In addition, the archaea have only one DNA strand (uniqueness).

Animal cells differ from archeas because they are multicellular (organisms with several cells), each one having a nucleus, and they also have specialized organelles.

In addition, animal cells have compounds called phospholipids in their membranes, which are unbranched lipids, and therefore do not cause major changes in the structures of their cells. Finally, animal cells have double-stranded DNA (complementary duplication).

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3 years ago