Methyl is neither acidic nor basic. It is a neutral compound.
Methyl is not inherently acidic. It does not have an acidic hydrogen atom that can be donated in a reaction. Methyl groups are often considered electron-donating and have a neutral/basic character.
An acidic solution will turn methyl orange pink. Methyl orange is an acid-base indicator that changes color from red to yellow in acidic solutions and from yellow to pink in basic solutions.
Methyl orange is a pH indicator that changes color in acidic and basic solutions. When added to sulfuric acid, which is a strong acid, the methyl orange changes color from yellow to red. This color change indicates that the solution is highly acidic.
Some common indicators for acids include litmus paper (blue to red for acidic solutions), phenolphthalein (colorless to pink/red for acidic solutions), and methyl orange (red to yellow for acidic solutions). For alkalis, indicators include litmus paper (red to blue for basic solutions), phenolphthalein (colorless to pink/red for basic solutions), and methyl orange (yellow to red for basic solutions).
Methyl red is red in acidic solutions, as it changes color from red to yellow at a pH around 4.4. This makes it a common indicator to distinguish between acidic and basic solutions.
Methyl is not inherently acidic. It does not have an acidic hydrogen atom that can be donated in a reaction. Methyl groups are often considered electron-donating and have a neutral/basic character.
An acidic solution will turn methyl orange pink. Methyl orange is an acid-base indicator that changes color from red to yellow in acidic solutions and from yellow to pink in basic solutions.
Methyl orange is a pH indicator that changes color in acidic and basic solutions. When added to sulfuric acid, which is a strong acid, the methyl orange changes color from yellow to red. This color change indicates that the solution is highly acidic.
A mixture of phenolphthalein, methyl orange, and litmus would typically result in a color that depends on the pH of the solution. Phenolphthalein is colorless in acidic solutions and turns pink in basic solutions, while methyl orange is red in acidic conditions and yellow in neutral to basic conditions. Litmus is red in acidic solutions and blue in basic ones. Therefore, the overall color would vary, likely appearing red in acidic environments and transitioning through shades of orange to yellow in neutral to basic conditions, depending on the dominant indicator's pH response.
Some common indicators for acids include litmus paper (blue to red for acidic solutions), phenolphthalein (colorless to pink/red for acidic solutions), and methyl orange (red to yellow for acidic solutions). For alkalis, indicators include litmus paper (red to blue for basic solutions), phenolphthalein (colorless to pink/red for basic solutions), and methyl orange (yellow to red for basic solutions).
Methyl red is red in acidic solutions, as it changes color from red to yellow at a pH around 4.4. This makes it a common indicator to distinguish between acidic and basic solutions.
Methyl orange is an acid-base indicator that changes color depending on the pH of the solution it is in. In an acidic solution, methyl orange appears red, while in a basic solution, it appears yellow. The reaction involves protonation of the indicator molecule in acidic conditions, leading to a color change.
The red or pink color in an acidic solution is typically due to the presence of an acid-base indicator called phenolphthalein. In acidic conditions, phenolphthalein turns colorless, while in basic conditions it turns red or pink.
3-methyl butanoic acid is more acidic than butanoic acid because the presence of the methyl group in 3-methyl butanoic acid increases the electron-withdrawing effect, making the molecule more acidic by stabilizing the conjugate base.
Methyl orange is an azo dye that exists in two forms: an acidic red form and a basic yellow form. The basic yellow form is more soluble in water compared to the acidic red form because it is anionic and can form hydrogen bonds with water molecules.
the color of methyl orange in an acidic medium is orange
Milk of magnesia is a basic solution. Therefore, methyl orange shows a yellowish orange colour. Further, this indicator shows a red colour in acidic solutions.