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Why - Neither solid sodium chloride nor liquid water are electrical conductors However when sodium chloride dissolves in water it forms a conducting solution-Explain?
When sodium chloride dissolves in water, it dissolves to form the chloride and sodium ions, therefore forming a conducting solution.
Will the solution of potassium chloride and water conduct electricity or not explain?
Yes, a solution of potassium chloride and water will conduct electricity. When potassium chloride (an electrolyte) dissolves in water, it dissociates into potassium ions and chloride ions which can carry electric current.
Explain electrical conductivity?
Electrical Conductivity- is the ability of a material to conduct electricity. ( in other words, it tells you what conducts electricity with what.) - your welcome,signed, really smart girl
Is dilution an acceptable way to dispose of the used copper chloride solution Explain?
No, dilution is not an acceptable way to dispose of copper chloride solution. Copper chloride is a toxic chemical that can harm the environment if disposed of incorrectly. It should be taken to a hazardous waste disposal facility for proper treatment and disposal.
Compare explain how the movements of electrons in electrical conductors and electrical insulaters affect the properties of the materials?
In electrical conductors, electrons can move freely, allowing for the transfer of electrical energy. This results in conductors having high electrical conductivity. In contrast, in insulators, electrons are tightly bound to their atoms and cannot move easily, leading to low electrical conductivity. Insulators have high resistance to the flow of electricity due to this lack of electron mobility.
What is solution space explain?
There is no solution.
Which two properties are explained by the pool-of-shared-electrons model for metals?
The pool-of-shared-electrons model for metals can explain their high electrical conductivity and malleability. In this model, the atoms in a metal share their outer electrons freely, creating a "sea" of electrons that are mobile and can carry electrical charge easily, which contributes to the metal's conductivity. The delocalized nature of the electrons also allows the metal to be easily reshaped without breaking the metallic bonds, giving it malleability.
What would happen if you added silver nitrate to a solution of sodium chloride Explain your answer?
When silver nitrate (AgNO₃) is added to a solution of sodium chloride (NaCl), a chemical reaction occurs, resulting in the formation of silver chloride (AgCl), a white precipitate. This happens because silver ions (Ag⁺) from the silver nitrate react with chloride ions (Cl⁻) from the sodium chloride to form the insoluble AgCl. The reaction can be represented by the equation: AgNO₃ + NaCl → AgCl (s) + NaNO₃. The formation of the precipitate indicates that a new compound has formed through this double displacement reaction.
Explain about Condutometric titration's of copper sulphate with sodium hydroxide?
Condutometric titration of copper sulfate with sodium hydroxide is a method used to determine the concentration of copper ions in a solution. By adding sodium hydroxide to a solution of copper sulfate, a white precipitate of copper hydroxide is formed. The end point of the titration is reached when all the copper ions have reacted with the sodium hydroxide, leading to a sudden increase in the solution's conductivity, which can be detected using a conductivity meter.
The model of sea electrons helps explain?
The model of sea electrons helps explain the behavior of metals and their conductivity by positing that a "sea" of delocalized electrons surrounds positively charged metal ions. This sea allows electrons to flow freely throughout the metal lattice, facilitating electrical conductivity and thermal conductivity. Additionally, it accounts for the malleability and ductility of metals, as the electrons can move and shift without breaking the metallic bonds. Overall, the sea of electrons is crucial for understanding the unique properties of metallic substances.
What are possible sources of error in a conductrimetric titration experimentWhy is the solution placed in the burette very much more concentrated than that in the conical flask Explain graphs?
Possible sources of error in a conductimetric titration experiment include temperature fluctuations affecting conductivity values, impurities in the solutions affecting conductivity readings, and improper calibration of the conductivity meter. The solution in the burette is typically more concentrated to ensure the endpoint can be easily detected during the titration. In the graphs obtained from the experiment, there is usually a sharp increase in conductivity at the equivalence point, indicating the completion of the reaction between the analyte and titrant.
How the formula of compound is derived using the formula of calcium chloride explain?
The formula for calcium chloride is derived from the charges of its constituent ions. Calcium (Ca) has a +2 charge as an alkaline earth metal, while chloride (Cl) has a -1 charge as a halogen. To balance the charges, one calcium ion combines with two chloride ions, resulting in the formula CaCl₂. This indicates that for every calcium ion, there are two chloride ions to achieve electrical neutrality in the compound.
