Indicate whether the characteristics below are of a virus or a cell. Smallest unit of life hijacks host in order to reproduce contains dna, ribosomes, and cytoplasm able to grow and reproduce on its own contains nucleic acid and capsid

Because energy is wasted as heat, there is less energy available as food for organisms at each level above so ecological pyramid is smaller at the top than the bottom.

What is Ecological pyramid?

• .An ecological pyramid is a graphical representation of the relationship between diverse living organisms at various trophic levels.

• These pyramids have the shape of true pyramids, with the widest base and the lowest trophic level, i.e., producers, covering it.

• The following trophic level, i.e. main consumers and so on, is occupied by the next trophic level.

• The uppermost level of an energy pyramid has the fewest animals since it has the least amount of energy.

• Most ecosystems only have four trophic levels since there isn't enough energy to support another at a certain point.

• The energy produced by the plants is distributed to the a pex predator in the amount of 0.01 percent.

• As a result, it makes logical that the pyramid's tiers grow smaller and smaller as you progress up the pyramid.

To know more about Ecological pyramid here

brainly.com/question/15025609

#SPJ2

Final answer:

In a glucose molecule, the number of hydrogen atoms is two times greater than the number of oxygen atoms.

Explanation:

The molecular formula for glucose is C6H12O6, which means that one molecule of glucose contains 6 carbon atoms, 12 hydrogen atoms and 6 oxygen atoms. So, if we compare the number of hydrogen atoms to the number of oxygen atoms in a glucose molecule, we see that there are 12/6 = 2 times more hydrogen atoms than oxygen atoms. This effectively answers the question: how many times larger is the number of hydrogen atoms than oxygen atoms in a molecule of glucose.

Learn more about Glucose Molecule here:

brainly.com/question/2396657

#SPJ2

Carbon is important in biology molecules because of its unique chemical properties. It can form stable covalent bonds and is the basis of organic compounds. Carbohydrates, lipids, proteins, and nucleic acids, all essential for biological processes, contain carbon.

Carbon is extremely important in biology molecules due to its unique chemical properties. Carbon atoms have four valence electrons, allowing them to form stable covalent bonds with other atoms, including other carbon atoms. This ability to form a wide variety of molecular structures makes carbon the basis of organic compounds, which are the building blocks of life. For example, carbohydrates, lipids, proteins, and nucleic acids, which are essential for various biological processes, all contain carbon.

Learn more about Importance of carbon in biology molecules here:

brainly.com/question/33718241

#SPJ6

Final answer:

Carbon's unique ability to form up to four covalent bonds with other atoms including carbon itself allows it to serve as the 'backbone' of most biological molecules. It forms complex structures that explain the diversity in molecular forms and functions. Its abundance and vital role in cellular function and across ecosystems make carbon fundamental to biology.

Explanation:

Carbon is exceedingly important in biological molecules because of its unique bonding properties. With four valence electrons, carbon has the capacity to form covalent bonds with other carbon atoms or various elements like oxygen, nitrogen, and hydrogen. This allows carbon to act as the fundamental building block, or 'backbone', of macromolecules such as proteins, carbohydrates, nucleic acids (RNA and DNA), and lipids, which are vital for life.

All living organisms are carbon-based, emphasizing its importance in biology. Carbon can form long and branching chains, enabling the creation of more complex structures. These chains can bond with other elements to allow for a wide variety of molecular forms, which results in diverse functionality. This characteristic of carbon bonding, and its vital role in the cell composition, constitutes carbon's significance in biology.

Indeed, the carbon cycle exemplifies the interconnectedness between living organisms across different ecosystems. Hence, given its central role in the structure and function of macromolecules, it could indeed be said that carbon is the 'foundation' element for molecules in living things.

Learn more about Carbon in Biology here:

brainly.com/question/14466038

#SPJ6