Electrons are the smallest of the three particles that make up atoms. Electrons are found in shells or orbitals that surround the nucleus of an atom. Protons and neutrons are found in the nucleus. They group together in the center of the atom.
The process that locks phosphorus in a long-term cycle is: Organic materials buried at the bottom of oceans; option B
<h3>What is the importance of phosphorus in living organisms?</h3>
Phosphorus is a non-metallic element which has the atomic number 15.
Phosphorus is important in living organisms in the following ways:
- as part of the energy molecule ATP
- as part of the nucleic acids, DNA and RNA
- as part of cofactors for enzyme activity
- as part of the cell membrane
In the cycling of phosphorus in nature, organic materials buried at the bottom of ocean locks phosphorus in a long-term.
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This type of defense falls under the category of Müllerian mimicry. It is a type of mimicry where two or more species mutually presents themselves as harmful. Müllerian mimicry describes a situation where species have similar warning signals and they share genuine anti-predation.
A new animal is discovered that is more sensitive to pain in its toes than its fingers. If we were to examine the brain of this animal we would notice that <u>the</u><u> parietal lobe</u><u> would have more brain area devoted to the toes than the fingers.</u>
<h3>What is the parietal lobe's primary purpose?</h3>
The parietal lobe is one of the major lobes in the brain, roughly located at the upper back area of the skull.It is found on both the left and right hemispheres of the cerebral cortex.
Somatosensory information from the body, such as touch, pain, temperature, and the perception of limb position, is processed by the parietal lobes. The parietal lobes play a role in integrating data from several modalities, just like the temporal lobes do. Parietal lobe houses the primary somatic sensory cortex, a part of the brain that processes information from various parts of the body.
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