It depends on what you mean by "go." What I can tell you is that if you mean what colour it turns into when it is used with litmus paper it turns blue. However, if you mean what colours it is on the pH chart the colours are ones like purples and blues.
(Sorry if I couldn't be of any help, I'm only 11)
Color of litmus will change.Red litmus will change into blue.
Red cabbage turns blue or purple in color when you add an alkali, such as baking soda or ammonia. This color change is due to compounds called anthocyanins in the cabbage that react with the alkaline solution.
Methyl violet appears as a greenish-blue color in alkali.
In weak alkali, universal indicator will typically turn green or blue. The specific color will depend on the pH of the solution - the higher the pH, the bluer the color.
Blackcurrant juice turns a bluish-black color in an alkali due to the presence of anthocyanins, which are pigments that change color based on pH levels.
Color of litmus will change.Red litmus will change into blue.
Red cabbage turns blue or purple in color when you add an alkali, such as baking soda or ammonia. This color change is due to compounds called anthocyanins in the cabbage that react with the alkaline solution.
Methyl violet appears as a greenish-blue color in alkali.
They do not have color.
blue
red
The color does not change unless an indicator such as litmus or phenolphthalein is being used. If litmus the color change is blue to red If phenolphthalein the change is red to colorless
Blackcurrant juice turns a bluish-black color in an alkali due to the presence of anthocyanins, which are pigments that change color based on pH levels.
In weak alkali, universal indicator will typically turn green or blue. The specific color will depend on the pH of the solution - the higher the pH, the bluer the color.
Blueberries turn green in an alkali solution due to a change in the pigment molecules. The anthocyanin pigments in blueberries react with the alkaline pH, causing the color change.
Onion skin turns red in acid and green in alkali due to the presence of anthocyanin pigments that change color based on the pH of the solution.
Phenolphthalein turns pink/magenta in the presence of an alkali.