Electrolytes Collection

D-69673
Blackfin icefish, Chaenocephalus aceratus, swimming under ice. Unlike other vertebrates, fish of the Date: 14-Nov-19

D-69672
Blackfin icefish, Chaenocephalus aceratus, swimming under ice. Unlike other vertebrates, fish of the Date: 14-Nov-19

D-69671
Ocellated icefish, Chionodraco rastrospinosus, resting on seabed under ice. Unlike other vertebrates Date: 14-Nov-19

D-69670
Crocodile icefish, Pagetopsis maculatus, eating Antarctic krill (Euphausia superba). Live usualy on Date: 14-Nov-19

D-69668
Antarctic toothfish, Dissostichus mawsoni. Dorsal view swimming over muddy deep seabed. It's the lar Date: 14-Nov-19

Gamebird farming, trainee gamekeeper watched by tutor, adding solulyte to water which helps prevent stress amongst young chicks in pheasant rearing sheds after transportation, England, May

Gamebird farming, trainee gamekeeper adding solulyte to water which helps prevent stress amongst young chicks in pheasant rearing sheds after transportation, England, May

Saliva chemicals, molecular model
Saliva chemicals. Molecular structure of a group of saliva molecules. These include the antibody immunoglobulin A (blue, double-y shape, see C014/5652)

Sodium hydroxide production. Schematic diagram of the diaphragm cell method for the chlor-alkali electrolytic process to produce sodium hydroxide

Daniell cell battery
Daniell cell. Invented by the British chemist John Frederic Daniell (1790-1845), the Daniell cell (left) is made from two half-cells, the electrolytes of which are separated by a porous partition

Aluminium production
Aluminium smelting process. Schematic diagram of the production of aluminium metal from aluminium ore (bauxite). The first stage (left) is the Bayer Process to produce alumina (aluminium oxide)

Aldosterone molecule. Molecular model showing the structure of a molecule of the steroid hormone aldosterone (C21.H28.O5). Atoms are colour-coded (carbon: grey, hydrogen: white, oxygen: red)

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"Unlocking the Power Within: Exploring the World of Electrolytes" D-69673, D-69672, D-69671, D-69670, and D-69668 - these mysterious codes hold the key to understanding electrolytes. In the realm of gamebird farming, a trainee gamekeeper is closely watched by their tutor as they add solulyte to water. This simple act helps prevent stress amongst young chicks, ensuring their well-being. But what exactly are electrolytes? Picture a molecular model representing saliva chemicals - those tiny particles that play a vital role in our bodies and can essential minerals like sodium and potassium that carry an electric charge when dissolved in water. Sodium hydroxide production takes center stage next. This versatile compound has numerous applications across industries worldwide. From manufacturing soaps to regulating pH levels in various processes, it's truly indispensable. Now let's delve into the fascinating world of batteries with Daniell cell battery. These electrochemical devices rely on electrolyte solutions to generate electrical energy through chemical reactions. They power everything from small gadgets to large-scale systems. And finally, we arrive at aluminium production - another process where electrolysis plays a crucial role. Through this technique, aluminium is extracted from its ore using an electric current passed through an electrolyte solution. Electrolytes may seem complex at first glance but understanding their significance unlocks endless possibilities for innovation and progress across diverse fields. So next time you sip on your favorite sports drink or marvel at technological advancements powered by batteries – remember that behind it all lies the magic of electrolytes.