Final Answer:
The hydrogen ion concentration
in lime juice with a pH of 1.9 is approximately
moles per liter (mol/L).
Step-by-step explanation:
The pH of a solution is a measure of its acidity, defined as the negative logarithm (base 10) of the hydrogen ion concentration. Mathematically, it is expressed as
![\( \text{pH} = -\log[H^+] \),](https://img.qammunity.org/2024/formulas/mathematics/high-school/nfnfa9qwj1u2fndbywlnempc1cidbi9uvz.png)
where
is the concentration of hydrogen ions in moles per liter. In the given case, the pH of lime juice is 1.9. To find the hydrogen ion concentration, we rearrange the equation to solve for
![\([H^+]\): \( [H^+] = 10^{-\text{pH}} \).](https://img.qammunity.org/2024/formulas/mathematics/high-school/cksixq8bsj3fg65en7dxz9wiisf8xdhzwl.png)
Substituting the pH value of 1.9 into this equation, we get
![\( [H^+] = 10^(-1.9) \)](https://img.qammunity.org/2024/formulas/mathematics/high-school/20yjmgv6eoixax7bddqn8ocneeqlzlinrw.png)
. Performing the calculation yields
![( [H^+] \approx 1.12 * 10^(-2)\) mol/L.](https://img.qammunity.org/2024/formulas/mathematics/high-school/y9a570r30miok6t6s8mx5f5lk7g5d2h4d8.png)
Understanding the hydrogen ion concentration is crucial in assessing the acidity of a solution. A lower pH value indicates higher acidity, reflecting a higher concentration of hydrogen ions. Lime juice, with a pH of 1.9, falls into the acidic range on the pH scale. This acidity contributes to the characteristic tartness of lime juice. The hydrogen ion concentration provides a quantitative measure of the strength of an acid in a solution, influencing both the taste and chemical properties of the substance.
In summary, the hydrogen ion concentration in lime juice, calculated from its pH, is approximately
mol/L. This numerical value not only defines the solution's acidity but also helps understand the chemical characteristics associated with its taste and behavior in reactions.