The cell obtain more magnesium through Active transport.
<h3>What is Active transport?</h3>
Active transport refers to the movement of molecules or ions across a cell membrane against the concentration gradient from a location of lower concentration to a region of higher concentration.
Cellular energy is needed for active transport in order to achieve this movement.
Adenosine triphosphate (ATP)-based primary active transport and electrochemical gradient-based secondary active transport are the two different forms of active transport.
Active transportation uses include:
Bacterial phagocytosis by macrophages.
Ca2+ ion expulsion from cardiac muscle cells.
Amino acid movement via the intestinal epithelium in the human intestine.
secretion of proteins from diverse cells, including enzymes, peptide hormones, and antibodies.
White blood cell defense against invasive illnesses.
Active transport employs cellular energy to move molecules against a gradient, polar repulsion, or other resistance, as opposed to passive transport, which relies on the kinetic energy and inherent entropy of molecules traveling down a gradient
The accumulation of large concentrations of substances that the cell requires, such as ions, glucose, and amino acids, is typically linked to active transport.
In order to write the Chromium electron configuration we first need to know the number of electrons for the Cr atom (there are 24 electrons). Once we have the configuration for Cr, the ions are simple.