Sulfuric acid is a string acid and citric acid is a weak acid. This means that sulfuric acid disassociates completely in water. All of the protons ( H + ) are released from the molecule into the solution. With acetic acid as little as 1% of the protons are released into solution.
So, with sulfuric acid you have,
H +
and
HSO4 -
ions that conduct electricity fully, while acetic acid is a weal conductor.
Sulfuric acid dissociates more completely into ions in solution, yielding a higher concentration of charge carriers to conduct electricity compared to citric acid which dissociates less. Additionally, sulfuric acid is a strong acid with higher acidity and better conductivity compared to citric acid which is a weak acid with lower conductivity.
Solid citric acid does not conduct electricity because it lacks free-moving ions required to carry an electric current. When citric acid is dissolved in water to form a solution, it ionizes into citrate ions and hydrogen ions, creating charged particles capable of conducting electricity.
Solid citric acid does not conduct electricity because it lacks free-moving ions to carry the electric current. In contrast, when citric acid is dissolved in water, it dissociates into charged particles (ions) that can move freely in the solution, allowing it to conduct electricity.
The acid in tomatoes that allows them to conduct electricity is citric acid. Citric acid is naturally found in many fruits and vegetables, including tomatoes, and it helps create a conductive environment when in contact with an electrolyte solution like salt water.
There are 16 known compounds with that chemical formula, the commonest being citric acid. You could use a solution of citric acid, into which are dipped two electrodes made of different metals, to produce a crude electric cell. Using one electrode made of Copper and another made of Zinc, you could produce a voltage of about 1 volt. Try using a piece of lemon (which contains citric acid), one "copper" coin and one "silver" coin to make a simple electric cell - it works!
Yes, all impure solutions of water containing salts are conductive to some degree, in addition many juices are acidic, and many acidic water solutions are conductive.
No, a lemon is a better conductor of electricity than a potato. This is because the citric acid and water content in a lemon make it a better electrolyte compared to a potato, allowing for the flow of electricity more efficiently.
Sulfuric acid dissociates more completely into ions in solution, yielding a higher concentration of charge carriers to conduct electricity compared to citric acid which dissociates less. Additionally, sulfuric acid is a strong acid with higher acidity and better conductivity compared to citric acid which is a weak acid with lower conductivity.
Solid citric acid does not conduct electricity because it lacks free-moving ions required to carry an electric current. When citric acid is dissolved in water to form a solution, it ionizes into citrate ions and hydrogen ions, creating charged particles capable of conducting electricity.
citric acid
It contains citric acid and other salts which are conductors of electricity in the presence of water which is there of course.
It contains citric acid and other salts which are conductors of electricity in the presence of water which is there of course.
Solid citric acid does not conduct electricity because it lacks free-moving ions to carry the electric current. In contrast, when citric acid is dissolved in water, it dissociates into charged particles (ions) that can move freely in the solution, allowing it to conduct electricity.
Calamansi is a conductor of electricity because it has citric acid properties. However, it is not necessarily considered a good conductor of electricity since the amount of acid present is relativity weak.
Lemons are better conductors of electricity than other fruits because they contain citric acid, which acts as an electrolyte that helps to carry charged particles (ions) between the two electrodes of a circuit. This allows for a greater flow of electricity compared to other fruits that may not have as high of an electrolyte content.
It contains citric acid and other salts which are conductors of electricity in the presence of water which is there of course.
The acid in tomatoes that allows them to conduct electricity is citric acid. Citric acid is naturally found in many fruits and vegetables, including tomatoes, and it helps create a conductive environment when in contact with an electrolyte solution like salt water.