What makes carbon so versatile

Answer:

d

Explanation:

Final answer:

The situation described in the question is an illustration of the 'levels of organization' theme in biology, which elucidates how smaller units combine to create more complex structures like tissues, organs, organ systems, and ultimately, the whole organism.

Explanation:

The scenario presented in the question exemplifies the theme of 'levels of organization' in biology. This theme explains how simpler components combine and interact to form more complex structures. In the context of multicellular organisms, cells form the fundamental units, which combine to constitute tissues. Tissues further come together to form organs, and organs function together in organ systems to enable the entire organism to function properly.

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Answer:

True.

Explanation:

Protein is a very versatile molecule and extremely important for the efficient functioning of the organism. However, proteins can only perform their functions through chains that wind and fold to form three-dimensional structures. these three-dimensional structures are the active form of the protein because they build the active site that will allow the substrate needed for body functions to fit and be catalyzed as needed.

In other words, the protein needs to be in its three-dimensional form for the construction of the active site to take place.

The correct answer is option B, that is, resilient.  

The Alaskan woodland more usually than not encounters with the incidents of fire regularly with the prime goal to better the cycling of supplements of the environment. One of the plants found in the Alaskan woodlands is Alaskan spruce and it is an exceptionally versatile plant. This signifies that when it gets destructed due to fire occurrences, it grows back briskly.  

the answer is; it is resilient. hope this helps

Answer:

Although the blood of the fetus and the mother does not mix,  Simple diffusion across the membrane of the placenta occurs.And since diffusion is the movement of ions and gaseous molecules across the membrane from the higher concentration of the mother blood to the lower concentration of the fetus, toxic chemical are conveyed across.,

Explanation:

The examples of diffusion/osmosis that occurs in our cells are as follows:

1. O2/CO2 moving in/out of your blood cells as they flow through your lungs
2. H2O moving in and out of all your cells to maintain homeostasis.

DIFFUSION/OSMOSIS:

• Diffusion is the process by which gaseous molecules move from a region of higher concentration to low concentration until they are evenly distributed.

• Osmosis, on the other hand, involves the movement of water from region where it is more concentrated to region where it is less concentrated via a semipermeable membrane.

• Both osmosis and diffusion are forms of passivetransport, meaning that movement occurs down a concentration gradient.

• The following are examples of diffusion/osmosis that occur in human cells:

1. O2/CO2 moving in/out of your blood cells as they flow through your lungs
2. H2O moving in and out of all your cells to maintain homeostasis.

Note that, option B is a form of active transport.

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the answers are (a.) and (c.)