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Is concentration and strength affect acid base solution representations the same way?
No, concentration and strength do not affect acid-base solution representations in the same way. Concentration refers to the amount of solute (acid or base) present in a given volume of solution, while strength indicates the degree to which an acid or base dissociates into ions in solution. Strong acids and bases fully dissociate, while weak ones only partially dissociate, regardless of their concentration. Thus, a concentrated weak acid may have a higher concentration than a dilute strong acid, but the strong acid will still have a greater effect on pH due to its complete dissociation.
Can stomach acid dissolve cotton fabrics?
Yes, it is very powerful. We have a special lining in our stomachs that keeps it from burning through the walls of the stomach.
The strength of an acid based on concentration of what ions?
Hydrogen ion (H+) [technically it is hydronium ion (H3O+)] that determines the strength of an acid. A mole of hydrochloric acid (HCl) produces 1 mole of H+ ions, then that is a strong acid. Weak acids give smaller amounts of H+ for a mole of substance.
Are proteins denatured by acid?
Depends a bit on the strength of the acid and what type of protein you've got but, on the whole, yes, they are.
What are the chemical and physical properties of PETE bottles?
Polyethylene terephthalate (PETE) bottles are known for their excellent clarity, strength, and lightweight characteristics. Chemically, PETE is a polyester made from the polymerization of terephthalic acid and ethylene glycol, making it resistant to moisture and chemicals. Physically, PETE has a high tensile strength and good impact resistance, with a melting point around 250°C. Additionally, it is recyclable and often identified by the recycling code "1."
How do lollies effect your teeth?
the acid in the lollies absorbs into your mouth sticking to your teeth and the strength in the acid stains your teeth
Why does acid dye not dye cotton?
Because acid is very harmful to the cotton and acid spoil the cotton and convert it to Hydration cellulose also the acid cause separation of chains of cellulose in the cotton. If we want to emaciate the cotton we use H2So4.and acid dyes usually need acid PH from 2 to 3. And as i said before it emaciate the cotton.
Is cotton acid proof?
No
What are the percentage strength weight of hydrochloric acid?
The strength of hydrochloric acid is typically expressed as a concentration percentage. Common concentrations include 20%, 30%, and 37% strength hydrochloric acid.
What determines the strength of an acid?
The strength of an acid is determined by its ability to donate protons (H+ ions) in a solution. The more easily an acid can donate protons, the stronger the acid. This is typically influenced by factors such as bond strength and electronegativity of the atoms in the acid molecule.
Does acid strengh depend on concentration?
No, the strength of an acid is determined by its ability to donate protons. Concentration affects the pH of the solution, but not the acid's inherent strength.
How can you determine the strength of an acid?
The strength of an acid can be determined by its pH level. A lower pH indicates a stronger acid, while a higher pH indicates a weaker acid. Additionally, the concentration of the acid and its ability to donate hydrogen ions also play a role in determining its strength.
How strong is acid?
The strength of acid depends on its pH really.
What is the effect of acid on nylon?
Acids can degrade nylon by breaking down the polymer chains, leading to weakening of the material. This can result in reduced strength, flexibility, and durability of the nylon product. It is important to avoid exposing nylon to acids to maintain its integrity.
How do you analyze the viscose cotton blend?
viscose dissolve in 40% sulphuric acid,but cotton in 70%.
Is cotton acid or alkaline?
Cotton is slightly acidic, with a pH ranging from 4.5 to 6.0.
How is the strength of a weak acid related to the strength of conjugate base?
The strength of a weak acid is inversely related to the strength of its conjugate base. If an acid is weak, its conjugate base will be stronger because the weaker the acid, the more easily it will give up its proton to form the conjugate base. Conversely, a stronger acid will have a weaker conjugate base.
