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Benzene is neutral. It is a colorless liquid hydrocarbon and does not have any acidic or basic properties.
No, lava lamps are not acidic. The liquid inside lava lamps is typically a mixture of water and a type of mineral oil, which do not possess acidic properties.
When a liquid turns into an acid, it undergoes a chemical change rather than a change of state. Acids are substances that release hydrogen ions when dissolved in water, giving them their characteristic properties. This transformation is due to the chemical composition of the liquid changing to form an acidic solution.
If the vinegar is more acidic than the liquid you're adding it to, yes. If you're adding vinegar to a liquid already more acidic, the opposite will happen.
Nitrogen dioxide id hydrolised and the liquid is acidic.
If a liquid is pink it is acidic. If a liquid is blue or green it is acidic.
Benzene is neutral. It is a colorless liquid hydrocarbon and does not have any acidic or basic properties.
Adding an acidic solution.
it have small particles
Yes. It is a solution containing sulfuric acid .
The hydrolysed solution of urea is basic.In liquid ammonia urea act as proton donor and the solution is acidic.
No, lava lamps are not acidic. The liquid inside lava lamps is typically a mixture of water and a type of mineral oil, which do not possess acidic properties.
They both have acidic properties. And they exist in liquid state. lol
When a liquid turns into an acid, it undergoes a chemical change rather than a change of state. Acids are substances that release hydrogen ions when dissolved in water, giving them their characteristic properties. This transformation is due to the chemical composition of the liquid changing to form an acidic solution.
If the vinegar is more acidic than the liquid you're adding it to, yes. If you're adding vinegar to a liquid already more acidic, the opposite will happen.
Nitrogen dioxide id hydrolised and the liquid is acidic.
Phenolphthalein solution turns red in an acidic environment. This color change occurs due to the shift in the pH of the solution, which causes phenolphthalein to undergo a chemical transformation and display a red hue in acidic conditions.