One possible answer: Blank 1 = 3150 Blank 2 = 10 Blank 3 = (2/315) = approx 0.006349
7 times blank = 2 times blank
dimension
The phrase "dated at blank this blank day of blank blank" typically indicates the date and location where a document was signed or created. The first "blank" usually represents the place, while the second set of "blanks" specifies the day, month, and year. This format is often used in legal or official documents to provide a clear record of when and where the document was executed.
To find the value of "blank" in the equation "blank divided by 6 equals 11," you can multiply both sides by 6. This gives you "blank = 11 × 6," which simplifies to "blank = 66." Thus, the value of "blank" is 66.
They don't dissolve (or more properly, dissociate) completely in water, only partially. Acids or bases that dissociate completely are called strong acids or bases.
Yes, bases can react with certain metals to form metal hydroxides, which may dissolve in water. For example, sodium hydroxide can dissolve aluminum to form sodium aluminate and hydrogen gas. However, not all metals will readily react with bases to dissolve.
the blank at the beginning is that it is a SOLUBILITY!
Yes, i believe lipids do dissolve in bases. Alkalis are soluble bases, and the strongest alkalis (pH14) are found in commercial oven cleaner. Seen as oven cleaners dissolve greases and fats in our ovens, one can assume that lipids dissolve in bases.
something bases which can dissolve in water
Bases can react with greases; soaps are formed, soluble in hot water.
Yes, it is correct.
It increases the concentration of OH - in a solution.
Bases don't dissolve glass; this is one of the reasons why lab equipment is made of it.
Acids dissolve in water to produce H+ ions, while bases dissolve in water to produce OH- ions. This process is known as ionization or dissociation, and it is a key characteristic of acidic and basic solutions.
Bases that do not dissolve in water include some insoluble metal hydroxides like magnesium hydroxide, calcium hydroxide, and barium hydroxide. These bases tend to form precipitates when added to water instead of fully dissolving.
Water can dissolve many substances, including salts, sugars, gases, and some acids and bases. This ability to dissolve a wide variety of substances is why water is often called the "universal solvent."