as you dilute the acid the flow of h;ydronium ions is slowesd down so the electrical energy pf those ions is convert to heat as per law of conservation of energy
To prepare diluted acetic acid, mix a precise amount of concentrated acetic acid with an appropriate volume of distilled water. Calculate the required volumes using the formula: C1V1 = C2V2, where C1 is the concentration of the concentrated acetic acid, V1 is the volume of the concentrated acid you're using, C2 is the desired concentration of the diluted acid, and V2 is the final volume of the diluted acid. Mix thoroughly to ensure homogeneity.
Concentrated acetic acid has a higher conductivity compared to diluted acetic acid. This is because the concentration of ions in the solution is higher in concentrated acetic acid, leading to better electrical conductivity. Diluting the acetic acid reduces the number of ions present, resulting in lower conductivity.
The ratio of water to concentrated sulfuric acid in dilute sulfuric acid is typically 10:1, meaning there is about 10 times more water than concentrated sulfuric acid in the solution. This dilution is necessary to reduce the concentration of sulfuric acid for safety and handling purposes.
Non-concentrated sulfuric acid refers to a diluted form of sulfuric acid where the concentration of sulfuric acid is lower than typical concentrated sulfuric acid solutions which are around 95-98% purity. Non-concentrated sulfuric acid is often prepared by mixing a specific amount of concentrated sulfuric acid with water to achieve the desired concentration for a particular application.
A diluted acid is a concentrated acid that has been diluted by water so it is not as concentrated. Sometimes the final dilution is expressed as a percentage of the original acid. More often we use molarity. In common lab use the dilute acids are 2M.
diluted acid is less concentrated i.e. it is mixed with water and a less harmful(like sulphuric acid.) whereas concentrated acid is in its original form...
To prepare diluted acetic acid, mix a precise amount of concentrated acetic acid with an appropriate volume of distilled water. Calculate the required volumes using the formula: C1V1 = C2V2, where C1 is the concentration of the concentrated acetic acid, V1 is the volume of the concentrated acid you're using, C2 is the desired concentration of the diluted acid, and V2 is the final volume of the diluted acid. Mix thoroughly to ensure homogeneity.
A concentrated acid is more dangerous.
The concentration is about 14 %
Concentrated acetic acid has a higher conductivity compared to diluted acetic acid. This is because the concentration of ions in the solution is higher in concentrated acetic acid, leading to better electrical conductivity. Diluting the acetic acid reduces the number of ions present, resulting in lower conductivity.
The ratio of water to concentrated sulfuric acid in dilute sulfuric acid is typically 10:1, meaning there is about 10 times more water than concentrated sulfuric acid in the solution. This dilution is necessary to reduce the concentration of sulfuric acid for safety and handling purposes.
Non-concentrated sulfuric acid refers to a diluted form of sulfuric acid where the concentration of sulfuric acid is lower than typical concentrated sulfuric acid solutions which are around 95-98% purity. Non-concentrated sulfuric acid is often prepared by mixing a specific amount of concentrated sulfuric acid with water to achieve the desired concentration for a particular application.
A diluted acid is a concentrated acid that has been diluted by water so it is not as concentrated. Sometimes the final dilution is expressed as a percentage of the original acid. More often we use molarity. In common lab use the dilute acids are 2M.
If concentrated sulfuric acid is left open, it will rapidly absorb moisture from the air, forming sulfuric acid fumes. This can lead to increased acidity and potential splashing hazards. Additionally, the acid may become diluted over time due to water absorption.
To dilute concentrated sulfuric acid, always add the acid to water slowly while stirring constantly. Never pour water into concentrated acid, as this can cause a violent exothermic reaction. It is important to wear appropriate personal protective equipment and work in a well-ventilated area when handling sulfuric acid.
Concentrated sulfuric acid can act as a weaker acid compared to dilute sulfuric acid because in concentrated form, there are fewer water molecules available to donate protons, leading to fewer acidic reactions. Dilute sulfuric acid, on the other hand, has more water molecules to facilitate proton donation, making it a stronger acid.
You can determine if an acid is concentrated or dilute by looking at its molarity. A high molarity indicates a concentrated acid, while a low molarity indicates a dilute acid. Additionally, concentrated acids are usually labeled as such on their packaging.